-A A +A
Surname: 
Bolognini
Firstname: 
Gabriele
Position: 
Staff
Profile: 
Research Director
Activity: 

Photonics, optical fiber sensors, quantum optics, optical fiber telecommunication devices and systems
----------------------------------------------------------------------------

Curriculum: 

Gabriele Bolognini operates in the fields of opto-electronics and photonics at National Research Council (Consiglio Nazionale delle Ricerche), Institute for Microelectronics and Microsystems, Bologna, Italy, where he has been working since 2011.

He obtained his Laurea Degree in Physics (cum laude, University of Pisa, 2000) and a PhD Degree in Engineering (Innovative Technologies, Scuola Superiore Sant'Anna, 2005).

Since many years he has taken leading roles (Principal Investigator, Coordinator, WP leader and so forth) for several national and international competitive projects. He has been in charge of university courses on photonics at the University of Bologna, and at Scuola Superiore Sant'Anna in Pisa.

He has published more than 140 scientific papers, and is inventor of 6 patents.

His research interests encompass the fields of opto-electronics and photonics. In particular he is active on optical fiber sensor systems and technologies, more specifically on Raman- and Brillouin-based distributed sensors, on distributed acoustic sensing (DAS) as well as on FBG-based optical sensors; he has been also active on optical telecommunications (in particular on optical amplification systems such as EDFAs, Raman-based and SOAs), as well as on silicon photonics devices, nonlinear fiber optics, optical transmission systems and metrological applications.

Since many years has been a member of technical program committees in many national and international conferences (most notably the international Optical Fiber Sensors conference) and in editorial boards of scientific journals.

He also acts as a referee/evaluator for project proposals in several research funding programmes including EC Horizon 2020, EC RFCS, EC FP7, Canada NSERC, Italy PRIN, FIRB, SIR. He is a member of IEEE, and participates to the work of the committee of IEC SC86C/WG2 for fiber optic sensors standardization.

Since 2019 he is president of the national standardization committee: CEI SC86C 'Optical systems and active devices' (https://mycomitato.ceinorme.it/ricerca/comitato/dettaglio/4SC86C)

 

 

Bibliometric data

H-index: 31 (Google Scholar)  - 29 (Scopus)

Citations: 2759 (Google Scholar)  - 2427 (Scopus)

Publications: 164 (Google Scholar)  - 145 (Scopus)

 

Recent projects

European Horizon 2020 SLAM-DAST (2021-2024)

He is the Scientific Coordinator of the European project "Smart LightwAve Multi-modal Distributed Acoustic Strain and Temperature sensor "  (SLAM-DAST), funded by European Union through EIC (European Innovation council) Horizon 2020, the Framework Programme for Research and Innovation, Fast Track to Innovation (call EIC-FTI-2018-2020 - Fast Track to Innovation (FTI)) under grant agreement No. 971149. Project coordinator, head of CNR project unit and workpackage leader (main technical activity of CNR: research and development of distributed Brillouin and acoustic sensing system).

Distributed Acoustic Sensing (DAS) and Distributed Temperature-Strain Sensing (DTSS) are two ground-breaking Distributed Fibre Optic Sensor (D-FOS) technologies that allow large-scale measuring and mapping of acoustic vibrations, temperature, mechanical deformations, and pressure in a large variety of consumer-based, civil, industrial, and environmental applications, in particular for attaining the widespread technological nerve system in smart city environments, for instance in smart home/household monitoring (heating, survelliance, fire detection, structural heath, and so forth), as well as in product distribution/logistics (traffic, distribution and plant monitoring). This project's main objective is to develop, prototype and demonstrate, both in civil/industrial and especially in household/smart-city case studies, a new, cost-effective, Smart LightwAve Multi-modal Distributed Acoustic Strain and Temperature photonic sensing system (SLAM-DAST), which will integrate: - Distributed Temperature and mechanical deformation (Strain) Sensing (DTSS) and - Distributed Acoustic vibrations optical Sensing (DAS). For more information please visit the European Union Horizon 2020 portal project webpage:

https://cordis.europa.eu/project/id/971149

https://www.slamdast-h2020.eu

 

 

EU Horizon 2020 5D NANOPRINTING (2020-2024)

He is the Workpackage coordinator for the European project Horizon 2020 FET (Future ad Emerging Technologies), call H2020-FETOPEN-2018-2019-2020-01). “5D NanoPrinting Functional & Dynamic 3D Nano- MicroDevices by Direct Multi-Photon Lithography”. Workpackage 2: Experimental SetUp & Fabrication Tools (development of multi-parameter 2-photon absorption measurement system)

Main topics (Horizon 2020 descriptor): Optics / Material science Abstract: 5D NanoPrinting project aims to set a new paradigm in the 3D printing technology of micro- and nano-machines, providing an innovative integrated technological approach, based on two-photon 3D direct printing processes. By developing innovative smart/functional materials with tailorable properties via two photon absorption process and novel fabrication methodologies, it aims to propel forward the current state-of-the-art micro(nano)printing technologies, allowing faster prototyping and designing of nano- and micro-electromechanical systems (NEMS/MEMS). Breakthrough processes for 3D NEMS/MEMS) rapid prototyping will be developed, aspiring to become a novel gold standard for micro/nano-technologies, similarly to what 3D printing represented for manufacturing technologies in the last decade.

Project Web-site: https://5dnanoprinting.eu/project

 

 EU Horizon 2020 PULSE (2017-2020)

He is the Scientific Coordinator of the European project "Pervasive Ubiquitous Lightwave Sensors"  PULSe, funded by European Union through Horizon 2020, the Framework Programme for Research and Innovation, Fast Track to Innovation Pilot (call H2020-FTIPilot-2016-1) under grant agreement No. 737801. Project coordinator, head of CNR project unit and workpackage leader (main technical activity of CNR unit: research and development of fiber-optic sensing system).

Abstract:  PULSe’s objective is to optimize, industrialize and secure the conditions for full market exploitation of the first cost-effective Brillouin distributed sensing solution based on a synergy of innovative interrogator equipment, strain sensing cable, data processing software and open-access market take-up support tools.

For more information please visit the project website:

http://www.pulse-h2020.eu

 

MIUR FIRB MINOS (2013-2017)

MIcro- and NanO-structured photonic devices based on strained silicon for ultrafast Switching in Datacom applications

https://www.bo.imm.cnr.it/unit/projects/minos-micro-and-nano-structured-photonic-devices-based-strained-silicon-ultrafast-switching

 

EU European Metrology Research Programme SIB02-REG3 (2013-2014)

- Distributed Raman amplification for phase coherent transfer of optical frequencies

https://www.bo.imm.cnr.it/unit/projects/emrp-sib02-reg3-distributed-raman-amplification-phase-coherent-transfer-optical-frequencies

 

EU Marie Curie (mobility) action INTERNEW (2017-2018)

 Innovative interfaces for energy-related applications

https://www.bo.imm.cnr.it/unit/projects/internew-innovative-interfaces-energy-related-applications

 

Available MS theses in photonics:
 
- Quantum cryptography and quantum key distribution through optical fibers

- Optical fiber sensing employing stimulated Brillouin scattering effect

 


 

SCIENTIFIC PRODUCTION


156. Bastianini, F., Falcetelli, F., Bochenski, P., Rossi, L., Di Sante, R., Bolognini, G.
Evaluation of strain sensing cables for Brillouin optical time domain analysis through Swept Wavelength Interferometry
(2022) 2022 Italian Conference on Optics and Photonics, ICOP 2022, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85141772985&doi=10.1...

155. Rossi, L., Bastianini, F., Bolognini, G.
Linewidth narrowing and stabilization from a short cavity ring laser source design for fibre sensor applications
(2022) 2022 Italian Conference on Optics and Photonics, ICOP 2022, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85141756095&doi=10.1...

154. Falcetelli, F., Bastianini, F., Bocheński, P., Rossi, L., Di Sante, R., Bolognini, G.
Optical characterization of strain sensing cables for Brillouin optical time domain analysis
(2022) Journal of the European Optical Society-Rapid Publications, 18 (1), art. no. 7, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85140141553&doi=10.1...

153. Rossi, L., Bastianini, F., Bolognini, G.
Study of injection-locked stabilized, short cavity Brillouin ring laser source design for fiber sensing applications
(2022) Journal of the European Optical Society-Rapid Publications, 18 (1), art. no. 5, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85136969200&doi=10.1...

152. Bastianini, F., Falcetelli, F., Rossi, L., Bochenski, P., Di Sante, R., Bolognini, G.
Optical Fiber Sensor Strain Sensing Cable Characterization through Swept Wavelength Interferometry
(2021) Progress in Electromagnetics Research Symposium, 2021-November, pp. 1163-1169.
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85126396205&doi=10.1...

151. Rossi, L., Marini, D., Bastianini, F., Bolognini, G.
Enhanced performance short cavity Brillouin fiber ring laser for high-stability BOTDA sensing
(2020) Proceedings of IEEE Sensors, 2020-October, art. no. 9278695, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85098714108&doi=10.1...

150. Bastianini, F., Bochenski, P., Di Sante, R., Falcetelli, F., Rossi, L., Bolognini, G.
Strain Transfer Estimation for Complex Surface-Bonded Optical Fibers in Distributed Sensing Applications
(2020) Proceedings of 2020 Italian Conference on Optics and Photonics, ICOP 2020, art. no. 9300327, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85099590081&doi=10.1...

149. Bastianini, F., Bochenski, P., Di Sante, R., Falcetelli, F., Rossi, L., Bolognini, G.
Innovative Cable Design for Distributed Sensing Applications based on Stimulated Brillouin Scattering
(2020) Proceedings of 2020 Italian Conference on Optics and Photonics, ICOP 2020, art. no. 9300339, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85099573770&doi=10.1...

148. Rossi, L., Bastianini, F., Bolognini, G.
Brillouin optical time domain analysis employing a doubly resonant short cavity fiber ring laser with active stabilization
(2020) Proceedings of 2020 Italian Conference on Optics and Photonics, ICOP 2020, art. no. 9300323, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85099562822&doi=10.1...

147. Falcetelli, F., Rossi, L., Di Sante, R., Bolognini, G.
Strain transfer in surface-bonded optical fiber sensors
(2020) Sensors (Switzerland), 20 (11), art. no. 3100, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85085910056&doi=10.3...

146. Rossi, L., Marini, D., Bastianini, F., Bolognini, G.
Tunable and Stabilized Short Cavity Brillouin Fiber Ring Laser for BOTDA Sensing
(2020) Conference Proceedings - Lasers and Electro-Optics Society Annual Meeting-LEOS, 2020-May, art. no. 9193720, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85091667092&partnerI...

145. Bastianini, F., Bochenski, P., Di Sante, R., Falcetelli, F., Marini, D., Bolognini, G.
Strain Transfer Estimation for Complex Surface-Bonded Optical Fibers in Distributed Sensing Applications
(2020) Optics InfoBase Conference Papers, art. no. W4.55, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85136805849&partnerI...

144. Rossi, L., Marini, D., Bastianini, F., Bolognini, G.
Narrow linewidth short cavity Brillouin ring laser for BOTDA systems
(2020) Optics InfoBase Conference Papers, art. no. T3.93, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85136800084&partnerI...

143. Rossi, L., Marini, D., Bastianini, F., Bolognini, G.
Tunable and stabilized short cavity Brillouin fiber ring laser for BOTDA sensing
(2020) Optics InfoBase Conference Papers, Part F181-CLEO-AT 2020, art. no. JTu2G.11, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85095125138&doi=10.1...

142. Bastianini, F., Di Sante, R., Falcetelli, F., Bolognini, G., Marini, D.
Optical fiber sensing cables for brillouin-based distributed measurements
(2019) Sensors (Switzerland), 19 (23), art. no. 5172, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85075599943&doi=10.3...

141. Rossi, L., Marini, D., Bastianini, F., Bolognini, G.
Analysis of enhanced-performance fibre Brillouin ring laser for Brillouin sensing applications
(2019) Optics Express, 27 (20), pp. 29448-29460.
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85072711217&doi=10.1...

140. Marini, D., Rossi, L., Bastianini, F., Bolognini, G.
Wavelength-locked low-noise Brillouin ring laser for Brillouin sensing
(2019) 2019 International Workshop on Fiber Optics in Access Networks, FOAN 2019, art. no. 8933796, pp. 16-19.
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85077960534&doi=10.1...

139. Marini, D., Rossi, L., Bastianini, F., Bolognini, G.
Narrow Linewidth Fiber Brillouin Ring Laser for Sensing Applications
(2019) Progress in Electromagnetics Research Symposium, 2019-June, art. no. 9017878, pp. 2964-2969.
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85082002917&doi=10.1...

138. Rossi, L., Marini, D., Bastianini, F., Bolognini, G.
Brillouin Optical Time Domain Analysis with Wavelength-locked Low-noise Pump-probe Laser Scheme
(2019) Progress in Electromagnetics Research Symposium, 2019-June, art. no. 9017494, pp. 2958-2963.
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85081987152&doi=10.1...

137. Rossi, L., Marini, D., Bastianini, F., Bolognini, G.
Wavelength-Locked Doubly-Resonant Cavity Fibre Brillouin Ring Laser for BOTDA Sensing
(2019) 2019 Optical Fiber Communications Conference and Exhibition, OFC 2019 - Proceedings, art. no. 8696821, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85065477413&doi=10.1...

136. Rossi, L., Marini, D., Bastianini, F., Bolognini, G.
Wavelength-locked doubly-resonant cavity fibre Brillouin ring laser for BOTDA sensing
(2019) Optics InfoBase Conference Papers, Part F160-OFC 2019, art. no. OFC-2019-W2A.16, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85085542430&partnerI...

135. Marini, D., Rossi, L., Bastianini, F., Bolognini, G.
Enhanced performance low-noise Brillouin ring laser for Brillouin sensing
(2019) Proceedings of SPIE - The International Society for Optical Engineering, 11199, art. no. 111993I, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85073365851&doi=10.1...

134. Bastianini, F., Bolognini, G., Marini, D., Bocheński, P., Di Sante, R., Falcetelli, F.
Optical fiber cables for Brillouin distributed sensing
(2019) Proceedings of SPIE - The International Society for Optical Engineering, 11199, art. no. 1119926, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85073352503&doi=10.1...

133. Marini, D., Rossi, L., Bastianini, F., Bolognini, G.
Low-noise wavelength-locked Brillouin ring laser for Brillouin sensing
(2019) Proceedings of SPIE - The International Society for Optical Engineering, 11199, art. no. 1119924, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85073344612&doi=10.1...

132. Marini, D., Rossi, L., Bastianini, F., Bolognini, G.
Actively stabilized low-noise Brillouin fiber ring laser for Brillouin sensing
(2019) Proceedings of SPIE - The International Society for Optical Engineering, 10897, art. no. 108971U, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85068324530&doi=10.1...

131. Marini, D., Rossi, L., Bastianini, F., Bolognini, G.
Tunable lower-RIN Brillouin fiber ring laser for BOTDA sensing
(2018) 2018 Conference on Lasers and Electro-Optics, CLEO 2018 - Proceedings, art. no. 8427420, .
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85052574721&partnerI...

130. D. Marini, M. Iuliano, F. Bastianini, G. Bolognini, “BOTDA sensing employing a modified Brillouin fiber laser probe source”, IEEE/OSA Journal of Lightwave Technology, IEEE Press, NJ, U.S.A., vol. 36, n. 4, 2018, pp. 1131-1137. (ISSN: 0733-8724, DOI: 10.1109/JLT.2017.2772326, SCOPUS: 2-s2.0-85034265915)

129. M. Natali, S. D. Quiroga, L. Passoni, L. Criante, E. Benvenuti, G. Bolognini, L. Favaretto, M. Melucci, M. Muccini, F. Scotognella, F. Di Fonzo,S. Toffanin, “Simultaneous Tenfold Brightness Enhancement and Emitted-Light Spectral Tunability in Transparent Ambipolar Organic Light-Emitting Transistor by Integration of High-k Photonic Crystal”, Advanced functional Materials, vol. 27, n. 21, 2017, pp. 1605164-1-8. (ISSN: 1616-301X, SCOPUS: 10.1002/adfm.201605164)

128. D. Marini, M. Iuliano, F. Bastianini, G. Bolognini, “Brillouin-based fiber sensing system employing a modified Brillouin ring laser source”, 2017 Fotonica AEIT Italian Conference on Photonics Technologies - Padova, Italy, May 2017. (ISBN: 978-1-78561-757-7, DOI: 10.1049/cp.2017.0222)

127. M. Iuliano, D. Marini, F. Bastianini, G. Bolognini, “BOTDA sensing system employing a tunable low-cost Brillouin fiber ring laser pump-probe source”, Proc. SPIE, The International Society for Optical Engineering, vol. 10323, p. 509, 2017. (ISSN: 0227-786X)

126. S. Toffanin, M. Natali, S. D. Quiroga, L. Passoni, L. Criante, E. Benvenuti, G. Bolognini, L. Favaretto, M. Melucci, M. Muccini, F. Scotognella, F. Di Fonzo, “Simultaneous 10-fold brightness increase and emitted-light tunability in transparent ambipolar organic light-emitting transistor by integration with inorganic high-k photonic crystal”, Proc. SPIE, The International Society for Optical Engineering, vol. 10360, p. 10360-13. (ISSN: 0227-786X)

125. D. Marini, G. B. Montanari, F. Mancarella, F. Bonafè, M. Ferri, R. Balboni, G. Bolognini, “Birefringence and strain distribution analysis in silicon photonics structures”, Materials.it 2016 1st Italian Conference on Materials Science and Technology, Catania, Italy, Dec 2016, p. 363.

124. D. Marini, F. Bastianini, G. Bolognini, “Optical source for fiber optic distributed sensing based on Brillouin scattering”, Materials.it 2016 1st Italian Conference on Materials Science and Technology, Catania, Italy, Dec 2016, p. P015.

123. F. Bastianini, D. Marini, G. Bolognini, “Tunable Ring Laser for BOTDA and BOFDA Sensing”, 2016 Fotonica AEIT Italian Conference on Photonics Technologies - Rome, Italy, June 2016, p. 5.4.

122. S. Toffanin, M. Natali, S. D. Quiroga, G. P. Donati, E. Benvenuti, M. Melucci, G. Bolognini, L. Passoni, L. Criante, F. Scotognella, F. Di Fonzo, “Monolithic integration of oxide transparent multilayer photonic crystal as optoelectronic gate dielectric into organic light-emitting transistor platform”, 2016 Fotonica AEIT, Italian Conference on Photonics Technologies – Rome, Italy, June 2016, p. A.31.

121. M. Virgilio, B. Witzigmann, G. Bolognini, S. Guha, T. Schroeder, G. Capellini, “A CMOS-compatible switching/modulation concept based on strain-induced refractive-index tuning”, Optics Express, vol. 23, n. 5, pp. 5930-5940, 2015 (ISSN: 1094-4087)

120. C. Clivati, G. Bolognini, D. Calonico, S. Faralli, A. Mura, F. Levi,, “In-field Raman amplification on coherent optical fiber links for frequency metrology”, Optics Express, vol. 23, n. 8, pp. 10604-10615, 2015 (ISSN: 1094-4087).

119. D. Marini, G. B. Montanari, F. Mancarella, F. Bonafè, M. Ferri, R. Balboni, G. Bolognini, “Strain assessment in strained-silicon photonic structures”, European Optical Society Topical Meeting on Optical Microsystems - Capri, Italy, Sep 2015, paper OFS’15_07.

118. G. Bolognini, C. Clivati, S. Faralli, F. Levi, A. Mura, D. Calonico, “Optical Frequency Transfer Employing Bi-Directional Distributed Raman Amplification”, European Optical Society Topical Meeting on Optical Microsystems - Capri, Italy, Sep 2015, paper, paper OmS’15_51.

117. F. Bastianini, D. Marini, G. Bolognini, “Modified Brillouin ring laser technology for Brillouin-based sensing”, Proc. SPIE, The International Society for Optical Engineering, vol. 9634, pp. 96345E, 2015. (ISSN: 0227-786X)

116. D. Marini, G. B. Montanari, F. Mancarella, M. Ferri, R. Balboni, G. Bolognini, “Study of birefringence and strain distribution in silicon waveguides and coupling structures”, 2015 Fotonica AEIT Italian Conference on Photonics Technologies - Turin, Italy, May 2015, paper A.7.6. (ISBN: 978-1-78561-068-4)

115. G. Bolognini, C. Clivati, S. Faralli, A. Mura, F. Levi, D. Calonico, “Coherent Frequency Transfer over Long-Haul and Shared Optical Fiber Links Employing Distributed Raman Amplification”, 2015 Fotonica AEIT Italian Conference on Photonics Technologies - Turin, Italy, May 2015, paper C.1.7. (ISBN: 978-1-78561-068-4)

114. G. B. Montanari, F. Mancarella, R. Balboni, D. Marini, F. Corticelli, M. Sanmartin, M. Ferri, G. Bolognini, “Induced strain in silicon waveguides and couplers”, Proc. SPIE, The International Society for Optical Engineering, vol. 9367, p. 93671L (ISSN: 0277-786X, SCOPUS: 2-s2.0-84928818903)

113. D. Marini, G. B. Montanari, F. Mancarella, M. Ferri, R. Balboni, G. Bolognini, “Lattice deformations in strained-silicon rib structures for photonic devices”, 2014 Fotonica AEIT Italian Conference on Photonics Technologies, Napoli, Italy, May 2014, P.1.25. (ISBN: 978-8-8872-3718-4, SCOPUS: 2-s2.0-84904480239)

112. G. Bolognini, S. Faralli, C. Clivati, F. Levi, A. Mura, D. Calonico, “Metrological transfer of phase-coherent optical frequencies over long distances employing distributed Raman amplification”, 2014 Fotonica AEIT Italian Conference on Photonics Technologies, May 2014, paper P.1.27. (ISBN: 978-8-8872-3718-4, SCOPUS: 2-s2.0-84904498267)

111. D. Marini, G. B. Montanari, F. Mancarella, M. Ferri, R. Balboni, G. Bolognini, “Study of Induced Strain in Silicon Rib Structures”, Proceedings of the 11th International IEEE Conference on Group IV Photonics, Paris, France, Aug 2014, p. 195-196. (ISSN: 1949-2081, SCOPUS: 2-s2.0-84914179724)

110. G. Bolognini, D. Calonico, C. Clivati, S. Faralli, A. Mura, F. Levi, “Distributed Raman amplification in phase coherent transfer of optical frequencies over long-haul and metro fiber links”, IEEE Photonics Conference, San Diego, USA, Oct 2014, p. We1.3. (ISBN: 978-145771504-4, SCOPUS: 2-s2.0-84921297890)

109. H. Schnatz, G. Bolognini, D. Calonico, E. Dierikx, G. Grosche, P. O. Hedekvist, A. Kuna, G. Marra, M. Merimaa, A. Niessner, P. E. Pottie, Ł. Śliwczyński, R. Slavik, V. Smotlacha, F. Spahic, “NEAT-FT: The European Fiber Link Collaboration”, Joint IEEE International Frequency Control Symposium (IFCS) and European Frequency and Time Forum (EFTF), Switzerland, 2014, p. A1L-A.1 (invited).

108. N. Andriolli, I. Cerutti, P. Pintus, M. Scaffardi, D. Marini, G. B. Montanari, F. Mancarella, M. Ferri, R. Balboni, G. Bolognini, “Challenges and Progress toward a Silicon-based Multi-Microring Optical Network-on-Chip”, Proceedings of EUCNC 2014, 23rd European Conference on Networks and Communications, Italy, June 2014, p. 1-5 (DOI: 10.1109/EuCNC.2014.6882631, SCOPUS: 2-s2.0-84906969146).

107. R. Balboni, G. Bolognini, F. Corticelli, M. Ferri, F. Mancarella, D. Marini, G. B. Montanari, “Strain determination by CBED in Si-rib structures for photonic devices”, 18th International Microscopy Congress, Prague, Czech Republic, Sep 2014, P. MS-8-P-2815. (ISBN 978-80-260-6720-7)

106. G. Bolognini, C. Clivati, G. Costanzo, M. Frittelli, F. Levi, A. Mura, S. Schiller, D. Calonico, “Giant-area fiber-optic gyroscope with Raman-based temperature sensing for metrological applications”, Proc. of SPIE, Vol. 9157, pp. 915724.1-4, 2014. (ISSN: 0227-786X, SCOPUS: 2-s2.0-84903204378)

105. M. Taki, M. A. Soto, F. Di Pasquale, G. Bolognini, “Differential pulsewidth-pair Brillouin optical time-domain analysis employing Raman amplification and optical pulse coding”, in Sensors and Microsystems, C. Di Natale et al. Eds., Lecture Notes in Electrical Engineering, vol. 268, Springer Verlag publ., pp. 251-254, 2014 (ISSN: 1876-1100, ISBN: 978-3-319-00683-3).

104. F. Di Pasquale, M. Soto, G. Bolognini, “Raman based distributed optical fiber temperature sensors: industrial applications and future developments”, in Photonics for Safety and Security, A. Cutolo, et al. edit., World Scientific Publishing Co., Nov 2013, pp. 88-113 (DOI: 10.1142/9789814412971_0005, ISBN: 978-981-4412-96-4)

103. G. Bolognini, A. Hartog, “Raman based fibre sensors: trends and applications”, Optical Fiber Technology, Opt. Fiber Technol. (2013), vol. 19, n. 6, Dec 2013, pp. 678-688. (ISSN: 1068-5200)

102. G. Bolognini, C. Clivati, D. Calonico, S. Faralli, F. Levi, A. Mura, N. Poli, “Fiber Raman amplification for metrological transfer of phase-coherent optical frequencies”, Proc. of 39th European Conference for Optical communications, London, UK, IET Conf. Publications, vol. 2013, n. 622, pp. 327-329, Sep 2013. (ISBN: 978-1-84919-759-5, DOI: 10.1049/cp.2013.1382).

101 C. Clivati, G. Bolognini, D. Calonico, S. Faralli, F. Levi, A. Mura, N. Poli, “Distributed Raman Optical Amplification in Phase Coherent Transfer of Optical Frequencies”, IEEE Photonics Technology Letters, IEEE Press, N.J., U.S.A., vol. 25, n. 17, Sep 2013, p. 1711-1714.

100 C. Clivati, G. Costanzo, M. Frittelli, D. Calonico, F. Levi, A. Mura, G. Bolognini, S. Faralli, N. Poli, “Distributed amplification for coherent optical fiber links”, in Fotonica 2013, 15° Convegno Nazionale delle Tecnologie Fotoniche, Milan, Italy, May 2013, p. C6.4 (ISBN 9788887237160).

99. C. Clivati, G. Bolognini, D. Calonico, G. Costanzo, S. Faralli, F. Levi, A. Mura, N. Poli, “Distributed Raman Amplification for long-haul optical frequency dissemination”, Joint IEEE International Frequency Control Symposium (IFCS) and European Frequency and Time Forum (EFTF), Czech Republic, 2013, pp. 1007-1009 (DOI: 10.1109/EFTF-IFC.2013.6702168, ISBN: 978-1-4799-0342-9)

98. M. Taki, M. A. Soto, G. Bolognini, F. Di Pasquale, “Study of Raman amplification in DPP-BOTDA sensing employing Simplex coding for sub-meter scale spatial resolution over long fiber distances”, Measurement Science Technology, Institute of Physics Publisher, vol. 24, n. 9, Sep 2013, pp. 094018-1, 094018 -6 (ISSN: 0957-0233).

97. T. Nannipieri, M. Taki, F. Zaidi, A. Signorini, M. A. Soto, G. Bolognini, F. Di Pasquale, “Hybrid BOTDA/FBG sensor for discrete dynamic and distributed static strain/temperature measurements”, Proc. of SPIE, Vol. 8421, pp. 842121.1-4, Oct 2012. (ISSN: 0227-786X)

96. M. Taki, M. A. Soto, G. Bolognini, F. Di Pasquale, “Raman-assisted DPP-BOTDA sensor employing Simplex coding with sub-meter scale spatial resolution over 93 km standard SMF”, Proc. of SPIE, Vol. 8421, pp. 842119M.1-4, Oct 2012. (ISSN: 0227-786X)

95. M. Soto, A. Signorini, T. Nanninipieri, S. Faralli, G. Bolognini, F. Di Pasquale, “Impact of Loss Variations on Double-Ended Distributed Temperature Sensors Based on Raman Anti-Stokes Signal Only”, IEEE/OSA Journal of Lightwave Technology, IEEE Press, NJ, U.S.A., vol. 30, n. 8, Apr. 2012, p. 1215-1222. (ISSN:0733-8724)

94. F. Zaidi, T. Nannipieri, M. A. Soto, A. Signorini, G. Bolognini, F. Di Pasquale, “Integrated hybrid Raman/FBG interrogation scheme for distributed temperature and point dynamic strain measurements”, Applied Optics, vol. 51, n. 30, Oct. 2012, p. 7268-7275. (ISSN: 1559-128X)

93. M. A. Soto, M. Taki, G. Bolognini, F. Di Pasquale, “Simplex-coded BOTDA sensor over 120 km SMF with 1 m spatial resolution assisted by optimized bidirectional Raman amplification”, IEEE Photonics Technology Letters, IEEE Press, N.J.,U.S.A., vol. 24, n. 20, Oct. 2012, p. 1823-1826.

92. M. Soto, M. Taki, G. Bolognini, F. Di Pasquale, “Optimization of a DPP-BOTDA sensor with 25 cm spatial resolution over 60 km standard single-mode fiber using Simplex codes and optical pre-amplification”, Optics Express, vol. 20, n. 7, pp. 6860-6869, Mar 2012 (ISSN: 1094-4087)

91. M. Taki, M. Soto, F. Di Pasquale, G. Bolognini, “Long-range distributed strain and temperature sensor based on Brillouin optical time-domain analysis employing Raman amplification and Simplex coding”, Fotonica 2012, Florence, Italy, pp. B6.1.1-6, May 2012. (ISBN: 978-8-8872-3714-6)

90. F. Zaidi, T. Nannipieri, M. Soto, A. Signorini, G. Bolognini, F. Di Pasquale, “Hybrid Raman/FBG-based sensing for simultaneous point dynamic strain and distributed temperature measurement”, Optical Fiber Communication Conference (OFC 2012) Tech. Dig., Optical Society of America, Washington, DC, 2012, JW2A.26. (ISBN: 978-1-55752-935-0)

89. M. Taki, M. Soto, G. Bolognini, F. Di Pasquale, “Enhanced-performance BOTDA sensing through optimized pulse coding and low-RIN bidirectional Raman amplification”, Optical Fiber Communication Conference (OFC 2012) Tech. Dig., Optical Society of America, Washington, DC, 2012, p. OTu1C.6. (ISBN: 978-1-55752-935-0)

88. M. Taki, M. Soto, F. Di Pasquale, G. Bolognini, “Long-range BOTDA sensing using optical pulse coding and single-source bi-directional distributed Raman amplification”, IEEE Sensors Conference 2011, Limerick, Ireland, pp. 382-385, Oct 2011. (ISSN : 1930-0395, ISBN: 978-1-4244-9290-9)

87. M. Soto, T. Nannipieri, A. Signorini, A. Lazzeri, F. Baronti, R. Roncella, G. Bolognini, F. Di Pasquale, “Raman-based distributed temperature sensor with 1 m spatial resolution over 26 km SMF using low-repetition-rate cyclic pulse coding”, Optics Letters, vol. 36, n. 13, pp. 2557-2559, July 2011.

86. M. Soto, T. Nannipieri, A. Signorini, A. Lazzeri, F. Baronti, R. Roncella, G. Bolognini, F. Di Pasquale, “Advanced cyclic coding technique for long-range Raman DTS systems with meter-scale spatial resolution over standard SMF”, IEEE Sensors 2011, Limerick, Ireland, pp. 878-881, Oct 2011. (ISSN : 1930-0395, ISBN: 978-1-4244-9290-9)

85. M. Taki, M. Soto, S. Faralli, F. Di Pasquale, G. Bolognini, “Study of long-range distributed sensors based on Brillouin optical time-domain analysis employing bi-directional Raman amplification”, Fotonica 2011, 13° Convegno Nazionale delle Tecnologie Fotoniche, Genova, Italy, May 2011, paper C1.5.(ISBN 9788887237122)

84. A. Signorini, T. Nannipieri, M. A. Soto, S. Faralli, G. Bolognini, F. Di Pasquale, “Sensori distribuiti di temperatura in fibra ottica basati su effetto Raman mediante rivelazione di sola radiazione Anti-Stokes in configurazione a loop”, Fotonica 2011, 13° Convegno Nazionale delle Tecnologie Fotoniche, Genova, Italy, May 2011, p. C1.6. (ISBN 9788887237122)

83. M. A. Soto, A. Signorini, T. Nannipieri, S. Faralli, G. Bolognini, F. Di Pasquale, “Distributed optical fiber temperature sensor using only anti-Stokes Raman scattering light in a loop configuration”, Proc. SPIE (OFS 2011), May 2011, p. . (ISSN: 0227-786X)

82. M. Taki, M. Soto, G. Bolognini, F. Di Pasquale, “Long-range distributed strain and temperature sensing with 40-cm spatial resolution based on DPP-BOTDA employing optical pre-amplification and Simplex coding”, OFC 2011 Tech. Dig., Los Angeles, USA, p. OTuL2

81. M. A. Soto, S. Faralli, M. Taki, G. Bolognini, F. Di Pasquale, “BOTDA sensor with 2-m spatial resolution over 120 km distance using bi-directional distributed Raman amplification”, Proc. SPIE (OFS 2011), May 2011, p. 7753-162. (ISSN: 0227-786X)

80. M. Soto, G. Bolognini, F. Di Pasquale, “Optimization of long-range BOTDA sensor with high resolution using first-order bi-directional Raman amplification”, Optics Express, vol. 19, n.5, pp. 4444-4457 (2011).

79. M. Soto, G. Bolognini, F. Di Pasquale, “Long-range Simplex-coded BOTDA sensor over 120 km distance employing optical pre-amplification”, Optics Letters, 2011, vol. 36, pp. 232-234.

78. M. A. Soto, A. Signorini, T. Nannipieri, S. Faralli, G. Bolognini, “High performance distributed temperature sensing using only anti-Stokes Raman scattering light in a loop configuration”, IEEE Photonics Technology Letters, IEEE Press, N.J.,U.S.A., vol. 23, n. 9, pp. 534-536, May 2011. ISI journal.

77. G. Bolognini, M. Soto, F. Di Pasquale, “Simultaneous distributed strain and temperature sensing based on combined Raman and Brillouin scattering using Fabry-Pérot lasers”, Meas. Sci. Technol., Aug 2010. (ISSN: 0957-0233) ISI journal

76. F. Baronti, A. Lazzeri, R. Roncella, R. Saletti, A. Signorini, M. A. Soto, G. Bolognini, F. Di Pasquale “'SNR enhancement of Raman–based long–range distributed temperature sensors using cyclic Simplex codes”, Electronics Lett., IET Press, vol. 46, Aug 2010. (ISSN:0013-5194) ISI journal

75 M. Soto, G. Bolognini, F. Di Pasquale, “Analysis of pulse modulation format in coded BOTDA sensors”, Optics Express, vol. 18, n. 14, pp. 14878-14892, Jun 2010. (ISSN:0733-8724)

74. M. Soto, G. Bolognini, F. Di Pasquale, “Laser Fabry-Perot per sensori distribuiti di temperatura e deformazione in fibra ottica basati su retro-diffusione Raman e Brillouin”, Fotonica 2010, Pisa, Italy, May 2010, paper C.6.5

73. M. A. Soto, G. Bolognini, F. Di Pasquale, “Impact of the pulse modulation format on distributed BOTDA sensors based on Simplex coding”, EWOFS 2010 Conference, Oporto, Portugal, Sep 2010, p 4.9.

72. M. Soto, G. Bolognini, F. Di Pasquale, L. Thévenaz, “Long-range Brillouin optical time-domain analysis sensor employing pulse coding techniques”, Meas. Sci. Technol., Aug 2010. (ISSN: 0957-0233) ISI journal

71. G. Bolognini, M. Soto, “Optical pulse coding in hybrid distributed sensing based on Raman and Brillouin scattering employing Fabry-Perot lasers”, Optics Express, vol. 18, n. 8, pp. 8459-8465, Apr 2010. (ISSN:0733-8724) ISI journal

70. M. Soto, G. Bolognini, F. Di Pasquale, L. Thévenaz, “Simplex-coded BOTDA sensor with 1 m spatial resolution over a 50 km range”, Optics Letters, vol. 135, n. 2, pp. 259-261, Jan 2010.

69. M. A. Soto, G. Bolognini, F. Di Pasquale, “Enhanced distributed hybrid sensor based on Brillouin and Raman scattering combining Fabry-Perot lasers and optical pulse coding”, Technical Digest, Optical Fiber Communication Conference OFC 2010, San Diego, USA, Mar 2010, paper OthA1.

68. A. Signorini, S. Faralli, M. Soto, G. Sacchi, F. Baronti, R. Barsacchi, A. Lazzeri, R. Roncella, G. Bolognini, F. Di Pasquale, “40 km long-range Raman-based distributed temperature sensor with meter-scale spatial resolution”, Technical Digest, Optical Fiber Communication Conference OFC 2010, San Diego, USA, Mar 2010, paper OWL2.

67. G. Bolognini, A. Bononi, “Reduction of double Rayleigh scattering noise in distributed Raman amplifiers employing higher-order pumping”, Optics Express, vol. 17, n. 9, pp. 6996-7003, Apr 2009.

66. M. A. Soto, G. Bolognini, F. Di Pasquale, “Distributed optical fibre sensors based on spontaneous Brillouin scattering employing multimode Fabry-Pérot lasers”, Electronics Letters, IET Press, vol. 45, n. 21, p. 1071-1072, Oct 2009. (ISSN:0013-5194)

65. G. Bolognini, M. Soto, F. Di Pasquale, “Fiber-optic distributed sensor based on hybrid Raman and Brillouin scattering employing multi-wavelength Fabry-Pérot lasers” , IEEE Photonics Technology Letters, IEEE Press, N.J.,U.S.A., vol. 21, n. 20, pp. 1523-1525, Oct 2009.

64. M. Soto, G. Bolognini, F. Di Pasquale, “Enhanced long-range distributed strain and temperature sensing using BOTDA and optical pulse coding”, ECOC 2009 Conference, Vienna, Austria, p PD.1.3 (post-deadline).

63. M. Soto, G. Bolognini, F. Di Pasquale, “Distributed strain and temperature sensing over 50 km of SMF with 1 m spatial resolution employing BOTDA and optical pulse coding”, Optical Fiber Sensor Conf., OFS 2009, Glasgow, UK, Tech. Digest, p. PD09-1 (post-deadline).

62. M. Soto, G. Bolognini, F. Di Pasquale, “Use of Fabry-Pérot lasers for simultaneous distributed strain and temperature sensing based on hybrid Raman and Brillouin scattering”, Optical Fiber Sensor Conf., OFS 2009, Glasgow, UK, Tech. Digest, p. OF101-73.

61. M. Soto, G. Bolognini, F. Di Pasquale, “Fabry-Perot lasers in simultaneous strain and temperature Brillouin-based distributed sensing”, ECOC 2009 Conference, Vienna, Austria, p Tu.4.1.5.

60. M. Soto, G. Bolognini, F. Di Pasquale, “Studio di prestazioni in sensori in fibra ottica per la misura simultanea di temperatura e deformazione basati su effetto Brillouin con utilizzo di codifica e rivelazione coerente”, Fotonica 2009, Pisa, Italy, paper C4.2.

59. M. A. Soto, G. Bolognini, F. Di Pasquale, “Enhanced simultaneous distributed strain and temperature fiber sensor employing spontaneous Brillouin scattering and optical pulse coding”, IEEE Photonics Technology Letters, IEEE Press, N.J., U.S.A., vol. 21, n. 7, pp. 450-452, Apr 2009. (ISSN:1041-1135)

58. M. A. Soto, G. Bolognini, F. Di Pasquale, “Performance improvement in Brillouin-based simultaneous strain and temperature sensors employing pulse coding in coherent detection schemes”, Technical Digest, Optical Fiber Communication Conference OFC 2009, San Diego, USA, Mar 2009, paper OthU4.

57. A. Signorini, M. A. Soto, S. Faralli, G. Bolognini, F. Di Pasquale, E. Fedeli, E. Marzilli, R. Tarelli, “Progetto e sviluppo di sensori distribuiti di temperatura in fibra ottica per rivelazione di incendi in gallerie ferroviarie”, Sicurezza ed Esercizio Ferroviario, Convegno Nazionale, Atti del Convegno, Roma, p. SEF09, 20 Marzo 2009.

56. M. A. Soto, G. Bolognini, F. Di Pasquale, “Analysis of optical coding in spontaneous Brillouin-based distributed temperature sensors”, Optics Express, vol. 16, n.23, Nov 2008, pp. 19097-19111.

55. T. Rogowski, S. Faralli, G. Bolognini, F. Di Pasquale, R. Di Muro, B. Nayar, “ Transient control in SOA-based WDM metro ring networks under Add/Drop using a reservoir channel”, IEEE Photonics Technology Letters, IEEE Press, N.J.,U.S.A., vol. 20, n.13, 2008. (ISSN:1041-1135)

54. M. A. Soto, P. K. Sahu, G. Bolognini, F. Di Pasquale, “Brillouin-based distributed temperature sensor employing pulse coding”, IEEE Sensors Journal, IEEE Press, NJ, U.S.A., vol. 8, n. 3, Mar 2008 (ISSN:0733-8724)

53. F. Di Pasquale, M. Soto, G. Bolognini, “Optical pulse coding applied to distributed temperature sensor using spontaneous Brillouin frequency shift”, Korea-Italy Bilateral Workshop on Photonics for Communication and Sensing, Oct 23-24, 2008 Seoul, Korea, p. 55-56

52. P. K. Sahu, M. A. Soto, J. Lee, G. Bolognini, N. Park, F. Di Pasquale, “Analysis of Brillouin-based distributed fiber sensors using optical pulse coding”, Technical Digest, Optical Fiber Communication Conference OFC 2008, San Diego, USA, Mar 2008, paper OMT1.

51. G. Bolognini, A. Bononi, “Analysis of double Rayleigh scattering noise in higher-order pumped distributed Raman amplifiers”, Proceedings of the European Conference on Optical Communication ECOC 2008, Sep 2008, Bruxelles, Belgium, vol. 5, pp.51-52.

50. M. A. Soto, G. Bolognini, F. Di Pasquale, “Optical Pulse Coding Applied to Distributed Temperature Sensor Using Coherent Detection of Spontaneous Brillouin Frequency Shift”, Proceedings of the European Conference on Optical Communication ECOC 2008, Sep 2008, Bruxelles, Belgium, vol. 3, pp.163-164.

49. M. A. Soto, G. Bolognini, F. Di Pasquale, “30-km spontaneous-Brillouin distributed temperature sensor employing Simplex-coding and low optical input power”, Proceedings of the IEEE Sensors Conference, Lecce, Italy, Oct 2008, pp. 282-285.

48. S. Faralli, G. Bolognini, M. A. Andrade, F. Di Pasquale, “Unrepeated WDM transmission systems based on advanced first- and higher-order Raman co-pumping technologies”, IEEE/OSA Journal of Lightwave Technology, IEEE Press, NJ, U.S.A., vol. 25, n. 11, Nov. 2007. (ISSN:0733-8724) ISI Journal

47. G. Bolognini, J. Park, M. A. Soto, N. Park, and F. Di Pasquale, “Analysis of distributed temperature sensing based on Raman scattering using OTDR coding and discrete Raman amplification”, Measurement Science Technology, vol. 18, n. 10, Oct 2007, pp. 3211-3218

46. T. Rogowski, S. Faralli, G. Bolognini, F. Di Pasquale, R. Di Muro, B. Nayar, “SOA-based WDM metro ring networks with link control technologies”, IEEE Photonics Technology Letters, IEEE Press, N.J., U.S.A., vol. 19, n. 20, Oct 2007, pp. 1670-1672. (ISSN:1041-1135)

45. M. A. Soto, P. K. Sahu, S. Faralli, G. Bolognini, F. Di Pasquale, B. Nebendahl, C. Rueck, “Distributed temperature sensor system based on Raman scattering using correlation-codes”, Electronics Letters, vol. 43, n. 16, Aug 2007. (ISSN:0013-5194)

44. S. Faralli, G. Bolognini, F. Di Pasquale, “Design optimisation of high power and low RIN lasers for efficient Raman co-pumping”, Technical Digest, Optical Fiber Communication Conference OFC 2007, paper JthA13. (ISBN:1-55752-802-0)

43. T. Rogowski, S. Faralli, G. Bolognini, F. Di Pasquale, R. Di Muro, B. Nayar, “Mitigation of XGM and add/drop induced penalties in SOA-based metro WDM ring networks”, Proceedings of the European Conference on Optical Communication ECOC 2007, Berlin, Germany, p. 9.4.3.

42. N. Park, J. Lee, J. Park, J. G. Shim, H. Yoon, J. H. Kim, K. Kim, J. Byun, G. Bolognini, D. Lee, F. Di Pasquale, “Coded optical time domain reflectometry: principle and applications”, in Proceedings of SPIE, the International Society for Optical Engineering, vol. 6781, Passive Components and Fiber-based Devices II, Ming-Jun Li et al. Editors, p. 6781-76 (2007). (ISSN: 0277-786X)

41. M. A. Soto, P. K. Sahu, S. Faralli, G. Sacchi, G. Bolognini, F. Di Pasquale, B. Nebendahl, C. Rueck, “High performance and highly reliable Raman based distributed temperature sensors based on correlation coded OTDR and multimode graded index fibers”, in Proceedings of SPIE, the International Society for Optical Engineering 2007, Vol. 6619, A. Cutolo et al. Editors, p. 66193B, 04-07-2007. (ISSN: 0277-786X)

40. F. Di Pasquale, S. Faralli, G. Bolognini, “Tecniche avanzate di amplificazione Raman co-propagante per sistemi di trasmissione ottica WDM non ripetuti”, Fotonica 2007, Atti del Convegno, Mantova, Italy, paper A7.1.

39. G. Bolognini, F. Di Pasquale, J. Park, N. Park, and M. A. Soto, “Sensori distribuiti di temperatura in fibra ottica basati su effetto Raman mediante codifica di impulso e amplificazione Raman concentrata”, Fotonica 2007, Atti del Convegno, Mantova, Italy, paper B5.2.

38. S. Faralli, G. Bolognini, G. Sacchi, F. Di Pasquale, “Raman amplifier structure”, brevetto di invenzione internazionale N. WO2007009915, publication date 25/01/2007, World Intellectual Property Organization (WIPO), Geneve, Switzerland.

37. G. Bolognini, S. Faralli, A. Chiuchiarelli, F. Falconi, F. Di Pasquale, “High-power and low-RIN lasers for advanced first- and higher-order Raman co-pumping”, IEEE Photonics Technology Letters, IEEE Press, NJ, U.S.A., Vol. 18, pp. 1591-1593 (2006). (ISSN:1041-1135)

36. J. Park, G. Bolognini, P. Kim, D. Lee, F. Di Pasquale, and N. Park, “Raman-based Distributed Temperature Sensor with Simplex Coding and Link Optimisation”, IEEE Photonics Technology Letters, IEEE Press, NJ, U.S.A., Vol. 18, pp. 1879-1881 (2006).

35. G. Bolognini, J. Park, P. Kim, D. Lee, F. Di Pasquale, N. Park, “Performance enhancement of Raman-based distributed temperature sensors using Simplex codes”, Technical Digest, Optical Fiber Communication Conference OFC 2006, Anaheim ,USA, Mar 2006, paper OtuL1. (ISBN:1-55752-802-0)

34. G. Bolognini, S. Faralli, G. Sacchi, C. Cantini, F. Di Pasquale, “A new high-power and low-RIN Raman pump laser for improved performance in long-span unrepeated WDM transmission systems”, Technical Digest, Optical Fiber Communication Conference 2006, Anaheim ,USA, Mar 2006, paper OWD3. (ISBN:1-55752-802-0)

33. S. Faralli, G. Bolognini, A. Chiuchiarelli, R. Magri, F. Falconi, and F. Di Pasquale, “Advanced first- and second-order Raman co-pumping schemes for improved performance in unrepeated WDM transmission systems”, Proceedings of the European Conference on Optical Communication ECOC 2006, Cannes, France, Sep 2006, p. Th.3.2.5. (ISBN:041-1135)

32. G. Bolognini, J. Park, A. Chiuchiarelli, N. Park, and F. Di Pasquale, “Improved performance in Raman-based distributed temperature sensing with coded OTDR and discrete Raman amplification”, Technical Digest, Optical Fiber Sensor Conference OFS 2006, Cancun, Mexico, Oct 2006, p. ThE45.(ISBN:1-55752-817-9)

31. C. Cantini, S. Faralli, G. Sacchi, G. Bolognini, F. Falconi, F. Di Pasquale, G. Prati, “Transmission of 8x10 Gb/s WDM channels over 70 dB of standard SM fiber based on advanced first-order Raman co-Pumping”, Technical Digest, Conference on Lasers and Electro-Optics CLEO 2006, Long Beach, USA, May 2006, paper CThP5. (ISBN: 1-55752-813-6)

30. G. Bolognini, J. Park, A. Chiuchiarelli, N. Park, and F. Di Pasquale, “Improved performance in Raman-based distributed temperature sensing with 255-bit coded OTDR”, Proc. of China-Italy Bilateral Workshop on Photonics for Communication and Sensing 2006, Oct 23-24, 2006 Xi'an, China, paper Tu1.4

29. F. Di Pasquale, G. Bolognini, S. Faralli, A. Chiuchiarelli, “Advanced Raman co-pumping schemes for improved performance in unrepeated WDM transmission systems”, Proc. of China-Italy Bilateral Workshop on Photonics for Communication and Sensing 2006, Oct 23-24, 2006 Xi'an, China, paper Mo4.3.

28. S. Faralli, G. Bolognini, G. Sacchi, F. Di Pasquale, “Struttura di amplificatore Raman”, brevetto di invenzione nazionale depositato N. MI2005A001422, 22nd July 2005 presso: Italian Patent and Trademark Office (Ufficio Italiano Brevetti e Marchi).

27. G. Bolognini, S. Sugliani, F. Di Pasquale, “Optimal bi-directional Raman pumping in dispersion-shifted fibers for WDM inter-channel FWM reduction”, IEE Electronics Letters, April 2005, Vol. 41, No. 9. (ISSN:0013-5194)

26. S. Faralli, G. Bolognini, G. Sacchi, S. Sugliani, F. Di Pasquale, “Bi-directional higher-order cascaded Raman amplification benefits for 10 Gb/s WDM unrepeated transmission systems”, IEEE/OSA Journal of Lightwave Technology, IEEE Press, NJ, U.S.A., Vol. 23, pp. 2427-2433 (2005). (ISSN:0733-8724)

25. S. Faralli, P. Kim, C. Cantini, G. Bolognini, G. Sacchi, N. Park, F. Di Pasquale, “High Performance Discrete Amplifier Based on a Second Order Fiber Raman Oscillator”, IEEE Photonics Technology Letters, IEEE Press, NJ, U.S.A., Vol. 17, pp. 2298-2300 (2005). (ISSN:1041-1135)

24. G. Bolognini, S. Faralli, S. Sugliani, G. Sacchi, F. Di Pasquale, “Bi-directional higher order Raman pumping for improved performances in long span 10 Gb/s WDM unrepeated transmission systems”, Technical Digest, Optical Fiber Communication Conference OFC 2005, Anaheim, USA, paper OME56. (ISBN: 1-55752-784-9)

23. S. Faralli, P. Kim, C. Cantini, G. Sacchi, G. Bolognini, N. Park, F. Di Pasquale, “High gain and low noise discrete amplifier based on a 2nd-order Raman fiber ring oscillator”, Proceedings of the European Conference on Optical Communication ECOC 2005, Glasgow, UK, Sep 2005, paper Th3.3.3. (ISBN:086341-547-4),

22. F. Di Pasquale, S. Faralli, G. Bolognini, C. Cantini, G. Sacchi, “Advanced bi-directional Raman pumping schemes for long span unrepeated WDM transmission systems”, in Proceedings of SPIE, the International Society for Optical Engineering, 2005, Vol. 6019, Passive Components and Fiber-based Devices II, Y. Sun et al. Editors, pp. 60190G.1-12. (ISSN: 0277-786X)

21. G. Bolognini, G. Sacchi, S. Faralli, C. Cantini, F. Di Pasquale, “Benefits of bi-directional Raman pumping for 10 Gb/s C-band WDM transmission over long DSF spans”, Technical Digest, Optical Amplifiers and their Applications OAA 2005, Budapest, Hungary, Aug 2005, paper ME5. (ISBN: 1-55752-790-3)

20. J. Park, G. Bolognini, P. Kim, D. Lee, F. Di Pasquale, and N. Park, “Performance enhancement of Raman distributed temperature sensor using Simplex codes”, Photonics Conference 2005, Korea, Nov. 2005, paper FP41.

19. G. Bolognini, S. Sugliani, F. Di Pasquale, “Pompaggio Raman bi-direzionale su fibre DSF per riduzione di FWM tra canali WDM”, Fotonica 2005, Atti del Convegno, Bari, Italy, 30 Maggio - 1 Giugno 2005, paper B6.2. (ISBN: 1-55752-790-3)

18. G. Bolognini, F. Di Pasquale, “Transient effects in gain clamped discrete Raman amplifier cascades”, IEEE Photonics Technology Letters, IEEE Press, NJ, U.S.A., Vol. 16, Jan 2004. (ISSN:1041-1135)

17. G. Bolognini, S. Sugliani, F. Di Pasquale, “Double Rayleigh scattering noise in Raman amplifiers using pump time-division multiplexing schemes”, IEEE Photonics Technology Letters, IEEE Press, NJ, U.S.A., Vol. 16, n. 5, May 2004. (ISSN:1041-1135)

16. S. Sugliani, G. Sacchi, G. Bolognini, S. Faralli, F. Di Pasquale, “Effective suppression of penalties induced by parametric nonlinear interaction in distributed Raman amplifiers based on NZ-S fibers”, IEEE Photonics Technology Letters, IEEE Press, NJ, U.S.A., Vol. 16, n. 1, Jan 2004. (ISSN:1041-1135)

15. G. Bolognini, S. Sugliani, F. Di Pasquale, “Impact of double Rayleigh scattering noise in time-division multiplexed Raman pumping schemes”, Technical Digest, Optical Fiber Communication Conference OFC 2004, Los Angeles, CA, U.S.A., 22-27 Feb 2004, paper WB5. (ISBN: 1-55752-767-9)

14. G. Sacchi, S. Sugliani, S. Faralli, G. Bolognini, F. Di Pasquale, “Penalties induced by resonant noise enhancement and their mitigation in counter-pumped distributed Raman amplifiers”, Technical Digest, Optical Amplifiers and their Applications Conference OAA 2004, Jun 2004, San Francisco, CA, USA, paper OWA1. (ISBN: 1-55752-774-1)

13. G. Bolognini, S. Sugliani, F. Di Pasquale, “Benefits of co-propagating Raman pumping for C-band WDM transmission in dispersion shifted fibers”, Proceedings of Photonics 2004, India, Dec 2004, paper FBR1.1.

12. S. Faralli, S. Sugliani, G. Sacchi, G. Bolognini, F. Di Pasquale, “Double Rayleigh scattering noise in higher-order distributed Raman pumping schemes”, Paper TuB2.6, Proceedings of Suboptic Conference 2004, 29 Mar – 1 Apr 2004, Monaco, Monaco.

11. G. Bolognini, “Design of Photonic Crystal Fibers for optical parametric amplification”, POWAG 2004 Summer School, July 2004, Bath, UK.

10. G. Bolognini, S. Faralli, F. Di Pasquale, “Resonant gain enhancement induced by pump RIN transfer in distributed Raman amplifiers”, Technical Digest, Optical Fiber Communication Conference OFC 2003, 22-27 Mar 2003, Atlanta, GA, U.S.A., paper ThB6. (ISBN: 1-55752-731-8)

9. G. Sacchi, S. Sugliani, G. Bolognini, S. Faralli, F. Di Pasquale, “Experimental analysis of gain clamping techniques for lumped Raman amplifiers”, Proceedings of the European Conference on Optical Communication ECOC 2003, 21-25 Sep 2003, Rimini, Italy, paper Tu3.2.4.

8. S. Sugliani, G. Sacchi, G. Bolognini, S. Faralli, F. Di Pasquale ,” Suppression of penalties induced by parametric non-linear interaction in counter-pumped distributed Raman amplifiers”, Proceedings of the European Conference on Optical Communication ECOC 2003, 21-25 Sep 2003, Rimini, Italy, paper Tu3.2.6.

7. G. Bolognini, S. Faralli, S. Sugliani, G. Sacchi, F. Di Pasquale, “Theoretical study of dynamics in gain clamped Raman amplifier cascades”, Proceedings of Conference of the Laser and Electro-Optics Society LEOS 2003, 20-26 Oct 2003, Tucson, Arizona, U.S.A., paper TU I2. (ISBN: 0-7803-7888-1)

6. G. Bolognini, F. Di Pasquale, “Studio dinamico di transitori in cascate di amplificatori Raman concentrati”, Fotonica 2003, Atti del Convegno, Aprile 2003, Trento, Italy, pp. 197-200.

5. L. Palopoli, L. Abeni, G. Bolognini, B. Allotta, F. Conticelli, “Novel scheduling policies in real-time multithread control system design”, Control Engineering Practice, Wiley Interscience, NJ, U.S.A., Vol. 10, n. 10, Oct 2002, pp. 1091-1110. (ISSN: 0967-0661)

4. L. Palopoli, G. Lipari, G. Lamastra, L. Abeni, G. Bolognini, P. Ancilotti, “An object-oriented tool for simulating distributed real-time control systems”, Software-Practice and Experience, Elsevier Science, Oxford, UK, vol. 32, n. 9, Jul 2002, pp. 907-932. (ISSN: 0038-0644)

3. F. Di Pasquale, S. Faralli, G. Bolognini, “Raman amplifiers for WDM communication systems”, Proceedings of Photonics 2002, Mumbai, India, Dec 2002 p. LTW-P4.

2. G. Annino, G. Bolognini, M. Cassettari, M. Fittipaldi, I. Longo, M. Martinelli, C.A. Massa, L. A. Pardi, “A new approach to high losses dielectrometry based on whispering gallery resonators”, INFM Meeting, Atti del Congresso, Roma, Italy, 18-22 Jun 2001, paper I-25.

1. G. Annino, G. Bolognini, M. Cassettari, M. Fittipaldi, I. Longo, M. Martinelli, C.A. Massa, L. A. Pardi, “The High-field High-frequency EPR facility in Pisa”, Proceedings of the Umbella Workshop on High Frequency EPR, Nijmegen, The Netherlands, 21-22 Oct 1999.

Source: 

Scientific Productions

Francesco Falcetelli, Nan Yue, Leonardo Rossi, Gabriele Bolognini, Filippo Bastianini, Dimitrios Zarouchas, Raffaella Di Sante

Understanding the Link between Strain Transfer and Probability of Detection in Distributed Optical Fiber Sensors

Optical Fiber Sensors [Optica Publishing Group], Pages: Th6. 98

L Rossi, LK Cheng, W De Jong, R Jansen, G Bolognini

Hybrid Nonlinear Preamplification for φ-OTDR Distributed Acoustic Sensing

Optical Fiber Sensors [Optica Publishing Group], Pages: W4. 26

L Rossi, LK Cheng, W De Jong, R Jansen, G Bolognini

Two-Stage Preamplification for ϑ-OTDR Distributed Acoustic Sensing

2023 Photonics & Electromagnetics Research Symposium (PIERS) [IEEE], Pages: 1541-1545

F Falcetelli, L Rossi, F Bastianini, G Bolognini, R Di Sante

Optical Fibers Shape Sensing Accuracy under Different Uncertainty Sources: A Monte Carlo Experiment

2023 Photonics & Electromagnetics Research Symposium (PIERS) [IEEE], Pages: 1546-1552

L Rossi, LK Cheng, W De Jong, R Jansen, G Bolognini

Nonlinear amplification in φ-OTDR for distributed acoustic sensing

European Workshop on Optical Fibre Sensors (EWOFS 2023) [SPIE], Volume: 12643 Pages: 260-263

L Rossi, LK Cheng, W De Jong, R Jansen, G Bolognini

φ-OTDR for Low-Noise Distributed Seismic Sensing

CLEO: Applications and Technology [Optica Publishing Group], Pages: AM3K. 7

L Rossi, LK Cheng, W De Jong, R Jansen, G Bolognini

Low-noise φ-OTDR for Distributed Acoustic Sensing of a Survey Well

Optical Fiber Sensors [Optica Publishing Group], Pages: W4. 42

Leonardo Rossi, Filippo Bastianini, Gabriele Bolognini

Linewidth narrowing and stabilization from a short cavity ring laser source design for fibre sensor applications

2022 Italian Conference on Optics and Photonics (ICOP) [IEEE], Pages: 1-4

Filippo Bastianini, Francesco Falcetelli, Paweł Bocheński, Leonardo Rossi, Raffaella Di Sante, Gabriele Bolognini

Evaluation of strain sensing cables for Brillouin optical time domain analysis through Swept Wavelength Interferometry

2022 Italian Conference on Optics and Photonics (ICOP) [IEEE], Pages: 1-4

Leonardo Rossi, Diego Marini, Filippo Bastianini, Gabriele Bolognini

Enhanced performance short cavity Brillouin fiber ring laser for high-stability BOTDA sensing

2020 IEEE Sensors [IEEE], Pages: 1-4

Leonardo Rossi, Filippo Bastianini, Gabriele Bolognini

Brillouin optical time domain analysis employing a doubly resonant short cavity fiber ring laser with active stabilization

2020 Italian Conference on Optics and Photonics (ICOP) [IEEE], Pages: 1-4

Filippo Bastianini, Paweł Bocheński, Raffaella Di Sante, Francesco Falcetelli, Leonardo Rossi, Gabriele Bolognini

Innovative Cable Design for Distributed Sensing Applications based on Stimulated Brillouin Scattering

2020 Italian Conference on Optics and Photonics (ICOP) [IEEE], Pages: 1-4

Filippo Bastianini, Paweł Bocheński, Raffaella Di Sante, Francesco Falcetelli, Leonardo Rossi, Gabriele Bolognini

Strain Transfer Estimation for Complex Surface-Bonded Optical Fibers in Distributed Sensing Applications

2020 Italian Conference on Optics and Photonics (ICOP) [IEEE], Pages: 1-4

Leonardo Rossi, Diego Marini, Filippo Bastianini, Gabriele Bolognini

Narrow linewidth short cavity Brillouin ring laser for BOTDA systems

Optical Fiber Sensors [Optical Society of America], Pages: T3. 93

Leonardo Rossi, Diego Marini, Filippo Bastianini, Gabriele Bolognini

Tunable and stabilized short cavity Brillouin fiber ring laser for BOTDA sensing

CLEO: QELS_Fundamental Science [Optical Society of America], Pages: JTu2G. 11

Diego Marini, Leonardo Rossi, Filippo Bastianini, Gabriele Bolognini

Enhanced performance low-noise Brillouin ring laser for Brillouin sensing

Seventh European Workshop on Optical Fibre Sensors [International Society for Optics and Photonics], Volume: 11199 Pages: 111993I

Diego Marini, Leonardo Rossi, Filippo Bastianini, Gabriele Bolognini

Wavelength-locked low-noise Brillouin ring laser for Brillouin sensing

2019 International Workshop on Fiber Optics in Access Networks (FOAN) [IEEE], Pages: 16-19

Diego Marini, Leonardo Rossi, Filippo Bastianini, Gabriele Bolognini

Low-noise wavelength-locked Brillouin ring laser for Brillouin sensing

Seventh European Workshop on Optical Fibre Sensors [International Society for Optics and Photonics], Volume: 11199 Pages: 1119924

Filippo Bastianini, Gabriele Bolognini, Diego Marini, Paweł Bocheński, Raffaella Di Sante, Francesco Falcetelli

Optical fiber cables for Brillouin distributed sensing

Seventh European Workshop on Optical Fibre Sensors [International Society for Optics and Photonics], Volume: 11199 Pages: 1119926

L Rossi, D Marini, F Bastianini, G Bolognini

Brillouin Optical Time Domain Analysis with Wavelength-locked Low-noise Pump-probe Laser Scheme

2019 PhotonIcs & Electromagnetics Research Symposium-Spring (PIERS-Spring) [IEEE], Pages: 2958-2963

Diego Marini, Leonardo Rossi, Filippo Bastianini, Gabriele Bolognini

Narrow Linewidth Fiber Brillouin Ring Laser for Sensing Applications

2019 PhotonIcs & Electromagnetics Research Symposium-Spring (PIERS-Spring) [IEEE], Pages: 2964-2969

Diego Marini, Leonardo Rossi, Filippo Bastianini, Gabriele Bolognini

Actively-stabilized low-noise Brillouin fiber ring laser for Brillouin sensing

Fiber Lasers XVI: Technology and Systems [International Society for Optics and Photonics], Volume: 10897 Pages: 108971U

Leonardo Rossi, Diego Marini, Filippo Bastianini, Gabriele Bolognini

Wavelength-locked doubly-resonant cavity fibre Brillouin ring laser for BOTDA sensing

Optical Fiber Communication Conference [Optical Society of America], Pages: W2A. 16

Diego Marini, Leonardo Rossi, Filippo Bastianini, Gabriele Bolognini

Enhanced-performance fibre Brillouin ring laser for Brillouin sensing applications

Optical Fiber Sensors [Optical Society of America], Pages: ThE71

L Rossi, D Marini, F Bastianini, G Bolognini

Study of Brillouin optical time domain analysis fiber sensing with stabilized low-RIN pump-probe laser scheme

20th Italian National Conference on Photonic Technologies (Fotonica 2018) [IET], Pages: 1-4

Diego Marini, Leonardo Rossi, Filippo Bastianini, Gabriele Bolognini

Tunable lower-RIN Brillouin fiber ring laser for BOTDA sensing

CLEO: QELS_Fundamental Science [Optical Society of America], Pages: JW2A. 166

M Iuliano, D Marini, F Bastianini, G Bolognini

BOTDA sensing system employing a tunable low-cost Brillouin fiber ring laser pump-probe source

2017 25th Optical Fiber Sensors Conference (OFS) [IEEE], Pages: 1-4

D. Marini, G. B. Montanari, F. Mancarella, F. Bonafè, M. Ferri, R. Balboni, G. Bolognini

Birefringence and strain distribution analysis in silicon photonics structures

Materials.it 2016, Materials Science and Technology, Catania, Italy [], Pages: 363

S. Toffanin, M. Natali, S. D. Quiroga, G. P. Donati, E. Benvenuti, M. Melucci, G. Bolognini, L. Passoni, L. Criante, F. Scotognella, F. Di Fonzo

Monolithic integration of oxide transparent multilayer photonic crystal as optoelectronic gate dielectric into organic light-emitting transistor platform

Fotonica AEIT, Italian Conference on Photonics Technologies [], Pages: A.31

F Bastianini, D Marini, G Bolognini

Modified Brillouin ring laser technology for Brillouin-based sensing

24th International Conference on Optical Fibre Sensors [International Society for Optics and Photonics], Volume: 9634 Pages: 96345E

G Bolognini, C Clivati, S Faralli, A Mura, F Levi, D Calonico

Coherent frequency transfer over long-haul and shared optical fiber links employing distributed Raman amplification

Fotonica AEIT Italian Conference on Photonics Technologies, 2015 [IET], Pages: 1-4

GB Montanari, F Mancarella, R Balboni, D Marini, F Corticelli, M Sanmartin, M Ferri, G Bolognini

Induced strain in silicon waveguides and couplers

Silicon Photonics X [International Society for Optics and Photonics], Volume: 9367 Pages: 93671L

G Bolognini, D Calonico, C Clivati, S Faralli, A Mura, F Levi

Distributed Raman amplification in phase coherent transfer of optical frequencies over long-haul and metro fiber links

2014 IEEE Photonics Conference [IEEE], Pages: 465-466

D Marini, GB Montanari, F Mancarella, M Ferri, R Balboni, G Bolognini

Study of induced strain in silicon rib structures

11th International Conference on Group IV Photonics (GFP) [IEEE], Pages: 195-196

Nicola Andriolli, Isabella Cerutti, Paolo Pintus, Mirco Scaffardi, Diego Marini, Giovanni Battista Montanari, Fulvio Mancarella, Matteo Ferri, Roberto Balboni, Gabriele Bolognini

Challenges and progress toward a silicon-based multi-microring optical network-on-chip

2014 European Conference on Networks and Communications (EuCNC) [IEEE], Pages: 1-5

G Bolognini, C Clivati, G Costanzo, M Frittelli, F Levi, A Mura, S Schiller, D Calonico

Giant-area fiber optic gyroscope with Raman-based temperature sensing for metrological applications

23rd International Conference on Optical Fibre Sensors [International Society for Optics and Photonics], Volume: 9157 Pages: 915724

G Bolognini, S Faralli, C Clivati, F Levi, A Mura, D Calonico

Metrological transfer of phase-coherent optical frequencies over long distances employing Distributed Raman Amplification

2014 Fotonica AEIT Italian Conference on Photonics Technologies [IEEE], Pages: 1-3

D Marini, GB Montanari, F Mancarella, M Ferri, R Balboni, G Bolognini

Lattice deformations in strained-silicon rib structures for photonic devices

2014 Fotonica AEIT Italian Conference on Photonics Technologies [IEEE], Pages: 1-3

G Bolognini, Cecilia Clivati, Davide Calonico, S Faralli, Filippo Levi, Alberto Mura, N Poli

Fiber Raman amplification for metrological transfer of phase-coherent optical frequencies

39th European Conference and Exhibition on Optical Communication (ECOC 2013) [IET], Pages: 1-4

Cecilia Clivati, Davide Calonico, Filippo Levi, A Mura, G Bolognini, S Faralli, N Poli

Distributed Raman Amplification for long-haul optical frequency dissemination

2013 Joint European Frequency and Time Forum & International Frequency Control Symposium (EFTF/IFC) [IEEE], Pages: 1007-1009

Mohammad Taki, Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

Raman-assisted DPP-BOTDA sensor employing Simplex coding with sub-meter scale spatial resolution over 93 km standard SMF

OFS2012 22nd International Conference on Optical Fiber Sensors [International Society for Optics and Photonics], Volume: 8421 Pages: 84219M

Tiziano Nannipieri, Mohammad Taki, Farhan Zaidi, Alessandro Signorini, Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

Hybrid BOTDA/FBG sensor for discrete dynamic and distributed static strain/temperature measurements

OFS2012 22nd International Conference on Optical Fiber Sensors [International Society for Optics and Photonics], Volume: 8421 Pages: 842121

Farhan Zaidi, Tiziano Nannipieri, Marcelo A Soto, Alessandro Signorini, Gabriele Bolognini, Fabrizio Di Pasquale

Hybrid Raman/FBG-based sensing for simultaneous point dynamic strain and distributed temperature measurement

Optical Fiber Communication Conference [Optical Society of America], Pages: JW2A. 26

Marcelo A Soto, Mohammad Taki, Gabriele Bolognini, Fabrizio Di Pasquale

Enhanced-performance BOTDA sensing through optimized pulse coding and low-RIN bidirectional Raman amplification

Optical Fiber Communication Conference [Optical Society of America], Pages: OTu1C. 6

Mohammad Taki, Marcelo A Soto, Fabrizio Di Pasquale, Gabriele Bolognini

Long-range BOTDA sensing using optical pulse coding and single source bi-directional distributed Raman amplification

SENSORS, 2011 IEEE [IEEE], Pages: 382-385

Marcelo A Soto, Tiziano Nannipieri, Alessandro Signorini, Gabriele Bolognini, Fabrizio Di Pasquale, Andrea Lazzeri, Federico Baronti, Roberto Roncella

Advanced cyclic coding technique for long-range Raman DTS systems with meter-scale spatial resolution over standard SMF

SENSORS, 2011 IEEE [IEEE], Pages: 878-881

Marcelo A Soto, Alessandro Signorini, Tiziano Nannipieri, Stefano Faralli, Gabriele Bolognini, Fabrizio Di Pasquale

Distributed optical fiber temperature sensor using only anti-Stokes Raman scattering light in a loop configuration

21st International Conference on Optical Fiber Sensors [International Society for Optics and Photonics], Volume: 7753 Pages: 77539U

Marcelo A Soto, Stefano Faralli, Mohammad Taki, Gabriele Bolognini, Fabrizio Di Pasquale

BOTDA sensor with 2-m spatial resolution over 120 km distance using bi-directional distributed Raman amplification

21st International Conference on Optical Fiber Sensors [International Society for Optics and Photonics], Volume: 7753 Pages: 775325

Mohammad Taki, Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

Long-range distributed strain and temperature sensing with 40-cm spatial resolution based on DPP-BOTDA employing optical pre-amplification and Simplex coding

Optical Fiber Communication Conference [Optical Society of America], Pages: OTuL2

Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

Impact of the pulse modulation format on distributed BOTDA sensors based on Simplex coding

Fourth European Workshop on Optical Fibre Sensors [International Society for Optics and Photonics], Volume: 7653 Pages: 765332

A Signorini, S Faralli, MA Soto, G Sacchi, Federico Baronti, R Barsacchi, A Lazzeri, Roberto Roncella, G Bolognini, F Di Pasquale

40 km long-range Raman-based distributed temperature sensor with meter-scale spatial resolution

Optical Fiber Communication Conference [Optical Society of America], Pages: OWL2

Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

Enhanced distributed hybrid sensor based on Brillouin and Raman scattering combining Fabry-Perot lasers and optical pulse coding [C]

Optical Fiber Communication Conference [Optical Society of America], Pages: OThA1

Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale, Luc Thévenaz

Distributed strain and temperature sensing over 50 km of SMF with 1 m spatial resolution employing BOTDA and optical pulse coding

20th International Conference on Optical Fibre Sensors [International Society for Optics and Photonics], Volume: 7503 Pages: 750383

Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

Use of Fabry-Pérot lasers for simultaneous distributed strain and temperature sensing based on hybrid Raman and Brillouin scattering

20th International Conference on Optical Fibre Sensors [International Society for Optics and Photonics], Volume: 7503 Pages: 750328

Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

Use of Fabry-Pà © rot lasers for simultaneous distributed strain and temperature sensing based on hybrid Raman and Brillouin scattering

20th International Conference on Optical Fibre Sensors [International Society for Optics and Photonics], Pages: 750328-750328-4

MA Soto, G Bolognini, F Di Pasquale

Fabry-Perot lasers in simultaneous strain and temperature Brillouin-based distributed sensing

2009 35th European Conference on Optical Communication [IEEE], Pages: 1-2

MA Soto, G Bolognini, F Di Pasquale, Luc Thévenaz

Enhanced long-range distributed strain and temperature sensing using BOTDA and optical pulse coding

2009 35th European Conference on Optical Communication [IEEE], Volume: 2009 Pages: 1-2

Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

Performance improvement in Brillouin-based simultaneous strain and temperature sensors employing pulse coding in coherent detection schemes

Optical Fiber Communication Conference [Optical Society of America], Pages: OThU4

Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

30-km spontaneous-Brillouin distributed temperature sensor employing Simplex-coding and low optical input power

SENSORS, 2008 IEEE [IEEE], Pages: 282-285

G Bolognini, A Bononi

Analysis of double Rayleigh scattering noise in higher-order pumped distributed Raman amplifiers

2008 34th European Conference on Optical Communication [IEEE], Pages: 1-2

MA Soto, G Bolognini, F Di Pasquale

Optical pulse coding applied to distributed temperature sensor using coherent detection of spontaneous Brillouin frequency shift

2008 34th European Conference on Optical Communication [IEEE], Pages: 1-2

Prasant K Sahu, Marcelo A Soto, Jeonghwan Lee, Gabriele Bolognini, Namkyoo Park, Fabrizio Di Pasquale

Analysis of Brillouin-based distributed fiber sensors using optical pulse coding

Optical Fiber Communication Conference [Optical Society of America], Pages: OMT1

Namkyoo Park, Jeonghwan Lee, Jonghan Park, Jae Gwang Shim, Hosung Yoon, Jin Hee Kim, Kyoungmin Kim, Jae-Oh Byun, Gabriele Bolognini, Duckey Lee, Fabrizio Di Pasquale

Coded optical time domain reflectometry: principle and applications

Passive Components and Fiber-based Devices IV [International Society for Optics and Photonics], Volume: 6781 Pages: 678129

T Rogowski, S Faralli, G Bolognini, F Di Pasquale, R Di Muro, B Nayar

Mitigation of XGM and Add/Drop Induced Penalties in SOA-based Metro WDM Ring Networks

33rd European Conference and Exhibition of Optical Communication [VDE], Pages: 1-2

MA Soto, PK Sahu, S Faralli, G Sacchi, G Bolognini, F Di Pasquale, B Nebendahl, C Rueck

High performance and highly reliable Raman-based distributed temperature sensors based on correlation-coded OTDR and multimode graded-index fibers

Third European Workshop on Optical Fibre Sensors [International Society for Optics and Photonics], Volume: 6619 Pages: 66193B

S Faralli, G Bolognini, F Di Pasquale

Design optimization of high power and low RIN lasers for efficient Raman co-pumping

National Fiber Optic Engineers Conference [Optical Society of America], Pages: JThA13

G Bolognini, J Park, A Chiuchiarelli, N Park, F Di Pasquale

Improved performance in Raman-based distributed temperature sensing with coded OTDR and discrete Raman amplification

Optical Fiber Sensors [Optical Society of America], Pages: ThE45

S Faralli, G Bolognini, A Chiuchiarelli, R Magri, F Falconi, F Di Pasquale

Advanced first-and second-order Raman co-pumping schemes for improved performance in unrepeated WDM transmission systems

2006 European Conference on Optical Communications [IEEE], Pages: 1-3

C Cantini, S Faralli, G Sacchi, G Bolognini, F Falconi, F Di Pasquale, G Prati

Transmission of 8× 10 Gb/s WDM channels over 70 dB of standard SMF based on advanced first-order Raman co-pumping

Conference on Lasers and Electro-Optics [Optical Society of America], Pages: CThP5

Claudia Cantini, Stefano Faralli, Giovanni Sacchi, Gabriele Bolognini, Fabio Falconi, Fabrizio Di Pasquale, Giancarlo Prati

Transmission of 8x10 Gb/s WDM Channels Over 70 dB of Standard SMF based on Advanced First-Order Raman Co-Pumping

Conference on Lasers and Electro-Optics [Optical Society of America], Pages: CThP5

G Bolognini, J Park, P Kim, D Lee, F Di Pasquale, N Park

Performance enhancement of Raman-based distributed temperature sensors using simplex codes

Optical Fiber Communication Conference [Optical Society of America], Pages: OTuL1

G Bolognini, S Faralli, G Sacchi, C Cantini, F Di Pasquale

A new high-power and low-RIN Raman pump laser for improved performance in long-span unrepeated WDM transmission systems

2006 Optical Fiber Communication Conference and the National Fiber Optic Engineers Conference [IEEE], Pages: 3 pp.

Fabrizio Di Pasquale, Stefano Faralli, Gabriele Bolognini, Claudia Cantini, Giovanni Sacchi

Advanced bi-directional Raman pumping schemes for long-span unrepeated WDM transmission systems

Passive Components and Fiber-based Devices II [International Society for Optics and Photonics], Volume: 6019 Pages: 60190G

Stefano Faralli, Pilhan Kim, Claudia Cantini, Giovanni Sacchi, Gabriele Bolognini, Namkyoo Park, Fabrizio Di Pasquale

High gain and low noise discrete amplifier based on a second order Raman fiber ring oscillator

2005 31st European Conference on Optical Communication, ECOC 2005 [IET], Volume: 4 Pages: 945-946

G Bolognini, G Sacchi, S Faralli, C Cantini, F Di Pasquale

Benefits of Bi-Directional Raman Pumping for 10 Gb/s C-Band WDM Transmission over Long DSF Spans

Optical Amplifiers and Their Applications [Optical Society of America], Pages: ME5

G Bolognini, S Faralli, S Sugliani, G Sacchi, F Di Pasquale

Bi-directional higher-order Raman pumping for improved performances in long-span 10 Gbit/s WDM unrepeated transmission systems

Optical Fiber Communication Conference [Optical Society of America], Pages: OME56

L Rossi, LK Cheng, W de Jong, R Jansen, G Bolognini

Low-noise φ-OTDR employing nonlinear optical preamplification for distributed acoustic sensing

Applied Optics [Optica Publishing Group], Volume: 62 Issue: 16 Pages: E70-E77

Francesco Falcetelli, Nan Yue, Leonardo Rossi, Gabriele Bolognini, Filippo Bastianini, Dimitrios Zarouchas, Raffaella Di Sante

A Model-Assisted Probability of Detection Framework for Optical Fiber Sensors

Sensors [MDPI], Volume: 23 Issue: 10 Pages: 4813

Caterina Summonte, Alberto Maurizi, Rita Rizzoli, Fabrizio Tamarri, Monica Bertoldo, Gabriele Bolognini, Piera Maccagnani

Experimental analysis and simulation of the optical properties of gold nano-particles on sodium alginate

Optical Materials Express [Optica Publishing Group], Volume: 12 Issue: 11 Pages: 4456-4470

Francesco Falcetelli, Filippo Bastianini, Pawel Bocheński, Leonardo Rossi, Raffaella Di Sante, Gabriele Bolognini

Optical characterization of strain sensing cables for Brillouin optical time domain analysis

Journal of the European Optical Society-Rapid Publications [EDP Sciences], Volume: 18 Issue: 1 Pages: 7

Leonardo Rossi, Filippo Bastianini, Gabriele Bolognini

Study of injection-locked stabilized, short cavity Brillouin ring laser source design for fiber sensing applications

Journal of the European Optical Society-Rapid Publications [EDP Sciences], Volume: 18 Issue: 1 Pages: 5

Leonardo Rossi, Filippo Bastianini, Gabriele Bolognini

Stabilized, short cavity Brillouin ring laser source design for fiber sensing applications

EPJ Web of Conferences [EDP Sciences], Volume: 255

Caterina Summonte, Piera Maccagnani, Alberto Maurizi, Giulio Pizzochero, Gabriele Bolognini

Simulation of the optical properties of gold nanoparticles on sodium alginate

EPJ Web of Conferences [EDP Sciences], Volume: 255

Filippo Bastianini, Francesco Falcetelli, Paweł Bocheński, Leonardo Rossi, Raffaella Di Sante, Gabriele Bolognini

Optical characterization of strain sensing cables for Brillouin optical time domain analysis

EPJ Web of Conferences [EDP Sciences], Volume: 255

Francesco Falcetelli, Leonardo Rossi, Raffaella Di Sante, Gabriele Bolognini

Strain Transfer in Surface-Bonded Optical Fiber Sensors

Sensors [Multidisciplinary Digital Publishing Institute], Volume: 20 Issue: 11 Pages: 3100

Leonardo Rossi, Diego Marini, Filippo Bastianini, Gabriele Bolognini

Analysis of enhanced-performance fibre Brillouin ring laser for Brillouin sensing applications

Optics express [Optical Society of America], Volume: 27 Issue: 20 Pages: 29448-29459

Diego Marini, Marco Iuliano, Filippo Bastianini, Gabriele Bolognini

BOTDA sensing employing a modified Brillouin fiber laser probe source

Journal of Lightwave Technology [IEEE], Volume: 36 Issue: 4 Pages: 1131-1137

Diego Marini, Marco Iuliano, Filippo Bastianini, Gabriele Bolognini

BOTDA sensing employing a modified Brillouin fiber laser probe source

Journal of Lightwave Technology [IEEE], Volume: 36 Issue: 4 Pages: 1131-1137

Marco Natali, Santiago D Quiroga, Luca Passoni, Luigino Criante, Emilia Benvenuti, Gabriele Bolognini, Laura Favaretto, Manuela Melucci, Michele Muccini, Francesco Scotognella, Fabio Di Fonzo, Stefano Toffanin

Simultaneous Tenfold Brightness Enhancement and Emitted‐Light Spectral Tunability in Transparent Ambipolar Organic Light‐Emitting Transistor by Integration of High‐k Photonic Crystal

Advanced Functional Materials [], Volume: 27 Issue: 21 Pages: 1605164

F. Bastianini, D. Marini, Gabriele Bolognini

Tunable Ring Laser for BOTDA and BOFDA Sensing

Fotonica AEIT, Italian Conference on Photonics Technologies [], Pages: 5.4

Cecilia Clivati, G Bolognini, Davide Calonico, S Faralli, A Mura, Filippo Levi

In-field Raman amplification on coherent optical fiber links for frequency metrology

Optics express [Optical Society of America], Volume: 23 Issue: 8 Pages: 10604-10615

Michele Virgilio, Bernd Witzigmann, Gabriele Bolognini, Subhajit Guha, Thomas Schroeder, Giovanni Capellini

CMOS-compatible optical switching concept based on strain-induced refractive-index tuning

Optics express [Optical Society of America], Volume: 23 Issue: 5 Pages: 5930-5940

Gabriele Bolognini, Arthur Hartog

Raman-based fibre sensors: Trends and applications

Optical Fiber Technology [Academic Press], Volume: 19 Issue: 6 Pages: 678-688

Jung-Keun Yoo, Jongsoon Kim, Hojun Lee, Jaesuk Choi, Min-Jae Choi, Dong Min Sim, Yeon Sik Jung, Kisuk Kang

Porous silicon nanowires for lithium rechargeable batteries

Nanotechnology [IOP Publishing], Volume: 24 Issue: 42 Pages: 424008

Mohammad Taki, Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

Study of Raman amplification in DPP-BOTDA sensing employing Simplex coding for sub-meter scale spatial resolution over long fiber distances

Measurement Science and Technology [IOP Publishing], Volume: 24 Issue: 9 Pages: 094018

Cecilia Clivati, Gabriele Bolognini, Davide Calonico, Stefano Faralli, Filippo Levi, Alberto Mura, Nicola Poli

Distributed Raman optical amplification in phase coherent transfer of optical frequencies

IEEE Photonics Technology Letters [IEEE], Volume: 25 Issue: 17 Pages: 1711-1714

Farhan Zaidi, Tiziano Nannipieri, Marcelo A Soto, Alessandro Signorini, Gabriele Bolognini, Fabrizio Di Pasquale

Integrated hybrid Raman/fiber Bragg grating interrogation scheme for distributed temperature and point dynamic strain measurements

Applied optics [Optical Society of America], Volume: 51 Issue: 30 Pages: 7268-7275

Marcelo A Soto, Mohammad Taki, Gabriele Bolognini, Fabrizio Di Pasquale

Simplex-coded BOTDA sensor over 120-km SMF with 1-m spatial resolution assisted by optimized bidirectional Raman amplification

IEEE Photonics Technology Letters [IEEE], Volume: 24 Issue: 20 Pages: 1823-1826

Marcelo A Soto, Mohammad Taki, Gabriele Bolognini, Fabrizio Di Pasquale

Optimization of a DPP-BOTDA sensor with 25 cm spatial resolution over 60 km standard single-mode fiber using Simplex codes and optical pre-amplification

Optics Express [Optical Society of America], Volume: 20 Issue: 7 Pages: 6860-6869

Marcelo A Soto, Alessandro Signorini, Tiziano Nannipieri, Stefano Faralli, Gabriele Bolognini, Fabrizio Di Pasquale

Impact of loss variations on double-ended distributed temperature sensors based on Raman anti-Stokes signal only

Journal of Lightwave Technology [IEEE], Volume: 30 Issue: 8 Pages: 1215-1222

Marcelo A Soto, Alessandro Signorini, Tiziano Nannipieri, Stefano Faralli, Gabriele Bolognini, Fabrizio Di Pasquale

Impact of loss variations on double-ended distributed temperature sensors based on Raman anti-Stokes signal only

Journal of lightwave technology [IEEE], Volume: 30 Issue: 8 Pages: 1215-1222

Marcelo A Soto, Tiziano Nannipieri, Alessandro Signorini, Andrea Lazzeri, Federico Baronti, Roberto Roncella, Gabriele Bolognini, Fabrizio Di Pasquale

Raman-based distributed temperature sensor with 1 m spatial resolution over 26 km SMF using low-repetition-rate cyclic pulse coding

Optics letters [Optical Society of America], Volume: 36 Issue: 13 Pages: 2557-2559

Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

Optimization of long-range BOTDA sensors with high resolution using first-order bi-directional Raman amplification

Optics express [Optical Society of America], Volume: 19 Issue: 5 Pages: 4444-4457

Marcelo A Soto, Alessandro Signorini, Tiziano Nannipieri, Stefano Faralli, Gabriele Bolognini

High-performance Raman-based distributed fiber-optic sensing under a loop scheme using anti-stokes light only

IEEE Photonics technology letters [IEEE], Volume: 23 Issue: 9 Pages: 534-536

Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

Long-range simplex-coded BOTDA sensor over 120km distance employing optical preamplification

Optics letters [Optical Society of America], Volume: 36 Issue: 2 Pages: 232-234

Federico Baronti, A Lazzeri, Roberto Roncella, Roberto Saletti, A Signorini, MA Soto, G Bolognini, F Di Pasquale

SNR enhancement of Raman-based long-range distributed temperature sensors using cyclic Simplex codes

Electronics letters [IET], Volume: 46 Issue: 17 Pages: 1221-1223

Gabriele Bolognini, Marcelo A Soto, Fabrizio Di Pasquale

Simultaneous distributed strain and temperature sensing based on combined Raman–Brillouin scattering using Fabry–Perot lasers

Measurement Science and Technology [IOP Publishing], Volume: 21 Issue: 9 Pages: 094025

Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale, Luc Thévenaz

Long-range Brillouin optical time-domain analysis sensor employing pulse coding techniques

Measurement Science and Technology [IOP Publishing], Volume: 21 Issue: 9 Pages: 094024

Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

Analysis of pulse modulation format in coded BOTDA sensors

Optics Express [Optical Society of America], Volume: 18 Issue: 14 Pages: 14878-14892

Gabriele Bolognini, Marcelo A Soto

Optical pulse coding in hybrid distributed sensing based on Raman and Brillouin scattering employing Fabry–Perot lasers

Optics express [Optical Society of America], Volume: 18 Issue: 8 Pages: 8459-8465

Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale, Luc Thévenaz

Simplex-coded BOTDA fiber sensor with 1 m spatial resolution over a 50 km range

Optics letters [Optical Society of America], Volume: 35 Issue: 2 Pages: 259-261

MA Soto, G Bolognini, F Di Pasquale, L Thévenaz

50-km Simplex-coded BOTDA sensor for distributed strain and temperature measurements with 1 m spatial resolution

Optics Letters [], Volume: 35 Issue: 2 Pages: 259-261

MA Soto, G Bolognini, F Di Pasquale, L Thévenaz

km Simplex-coded BOTDA sensor for distributed strain and temperature measurements with 1 m spatial resolution”

Optics Letters [], Volume: 35 Issue: 2 Pages: 259-261

MA Soto, G Bolognini, F Di Pasquale

Distributed optical fibre sensors based on spontaneous Brillouin scattering employing multimode Fabry-Perot lasers

Electronics letters [IET Digital Library], Volume: 45 Issue: 21 Pages: 1071-1072

Gabriele Bolognini, Marcelo A Soto, Fabrizio Di Pasquale

Fiber-optic distributed sensor based on hybrid Raman and Brillouin scattering employing multiwavelength Fabry–Pérot lasers

IEEE Photonics Technology Letters [IEEE], Volume: 21 Issue: 20 Pages: 1523-1525

Gabriele Bolognini, Alberto Bononi

Reduction of double Rayleigh scattering noise in distributed Raman amplifiers employing higher-order pumping

Optics express [Optical Society of America], Volume: 17 Issue: 9 Pages: 6996-7003

Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

Enhanced simultaneous distributed strain and temperature fiber sensor employing spontaneous Brillouin scattering and optical pulse coding

IEEE Photonics Technology Letters [IEEE], Volume: 21 Issue: 7 Pages: 450-452

Gabriele Bolognini

Sensori distribuiti in fibra ottica per misure simultanee di temperatura e deformazione

Sensori distribuiti in fibra ottica per misure simultanee di temperatura e deformazione [Firenze University Press], Pages: 1000-1004

Marcelo A Soto, Gabriele Bolognini, Fabrizio Di Pasquale

Analysis of optical pulse coding in spontaneous Brillouin-based distributed temperature sensors

Optics express [Optical Society of America], Volume: 16 Issue: 23 Pages: 19097-19111

Tomasz Rogowski, Stefano Faralli, Gabriele Bolognini, Fabrizio Di Pasquale, Rodolfo Di Muro, Bimal Nayar

Transient Control in SOA-Based WDM Metro-Ring Networks Under Add–Drop Operation Using a Reservoir Channel

IEEE Photonics Technology Letters [IEEE], Volume: 20 Issue: 13 Pages: 1175-1177

Marcelo A Soto, Prasant K Sahu, Gabriele Bolognini, Fabrizio Di Pasquale

Brillouin-based distributed temperature sensor employing pulse coding

IEEE Sensors Journal [IEEE], Volume: 8 Issue: 3 Pages: 225-226

Stefano Faralli, Gabriele Bolognini, Maria Adelaide Andrade, Fabrizio Di Pasquale

Unrepeated WDM transmission systems based on advanced first-order and higher order Raman-copumping technologies

Journal of lightwave technology [IEEE], Volume: 25 Issue: 11 Pages: 3519-3527

T Rogowski, S Faralli, G Bolognini, F Di Pasquale, R Di Muro, B Nayar

SOA-based WDM metro ring networks with link control technologies

IEEE Photonics Technology Letters [IEEE], Volume: 19 Issue: 20 Pages: 1670-1672

Gabriele Bolognini, Jonghan Park, Marcelo A Soto, Namkyoo Park, Fabrizio Di Pasquale

Analysis of distributed temperature sensing based on Raman scattering using OTDR coding and discrete Raman amplification

Measurement Science and Technology [IOP Publishing], Volume: 18 Issue: 10 Pages: 3211

MA Soto, PK Sahu, S Faralli, G Bolognini, F Di Pasquale, B Nebendahl, C Rueck

Distributed temperature sensor system based on Raman scattering using correlation-codes

Electronics Letters [IET], Volume: 43 Issue: 16 Pages: 862-864

N Park, J Lee, J Park, JG Shim, H Yoon, JH Kim, K Kim, J Byun, G Bolognini, D Lee

Coded optical time domain reflectometry: principle and applications (Invited Paper)[6781-76]

PROCEEDINGS-SPIE THE INTERNATIONAL SOCIETY FOR OPTICAL ENGINEERING [International Society for Optical Engineering; 1999], Volume: 6781 Issue: 1 Pages: 6781

Jonghan Park, Gabriele Bolognini, Duckey Lee, Pilhan Kim, Pilki Cho, Fabrizio Di Pasquale, Namkyoo Park

Raman-based distributed temperature sensor with simplex coding and link optimization

IEEE Photonics Technology Letters [IEEE], Volume: 18 Issue: 17 Pages: 1879-1881

Gabriele Bolognini, Stefano Faralli, Andrea Chiuchiarelli, Fabio Falconi, Fabrizio Di Pasquale

High-power and low-RIN lasers for advanced first-and higher order Raman copumping

IEEE photonics technology letters [IEEE], Volume: 18 Issue: 15 Pages: 1591-1593

TJ Xia, DZ Chen, G Wellbrock, A Zavriyev, AC Beal, KM Lee

Optical Fiber Communication Conference and Exposition, and the National Fiber Optic Engineers Conference

Tech. Dig.(CD)(Washington, DC: Optical Society of America) paper OTuJ7 [],

Stefano Faralli, Pilhan Kim, Claudia Cantini, Gabriele Bolognini, Giovanni Sacchi, Namkyoo Park, Fabrizio Di Pasquale

High-performance discrete amplifier based on a second-order fiber Raman oscillator

IEEE photonics technology letters [IEEE], Volume: 17 Issue: 11 Pages: 2298-2300

Stefano Faralli, Gabriele Bolognini, Giovanni Sacchi, Simone Sugliani, Fabrizio Di Pasquale

Bidirectional higher order cascaded Raman amplification benefits for 10-Gb/s WDM unrepeated transmission systems

Journal of lightwave technology [IEEE], Volume: 23 Issue: 8 Pages: 2427

G Bolognini, S Sugliani, F Di Pasquale

Optimal bidirectional Raman pumping in dispersion-shifted fibres for WDM inter-channel FWM reduction

Electronics Letters [IET Digital Library], Volume: 41 Issue: 9 Pages: 553-554

S Faralli, C Cantini, G Bolognini, F Di Pasquale, P Kim, N Park, G Sacchi

Th3. 3.3 High Gain And Low Noise Discrete Amplifier Based On A Second Order Raman Fibre Ring Oscillator

IEE CONFERENCE PUBLICATION [London; Institution of Electrical Engineers; 1999], Volume: 502 Issue: 4 Pages: 945

Costanza Cucci, Vivi Tornari

Photonic technologies for the safeguarding of cultural assets

Photonics for Safety and Security [], Pages: 67-87

Mohammad Taki, M Soto, Fabrizio Di Pasquale, Gabriele Bolognini

Differential Pulse-Width Pair Brillouin Optical Time-Domain Analysis Employing Raman Amplification and Optical Pulse Coding

Sensors and Microsystems [Springer, Cham], Pages: 251-254

Fabrizio Di Pasquale, Marcelo A Soto, Gabriele Bolognini

Raman based distributed optical fiber temperature sensors: Industrial applications and future developments

Photonics for Safety and Security [], Pages: 88-113

Fabrizio Di Pasquale, Marcelo A Soto, Gabriele Bolognini

RAMAN BASED DISTRIBUTED OPTICAL FIBER TEMPERATURE SENSORS: INDUSTRIAL APPLICATIONS AND FUTURE DEVELOPMENTS

[World Scientific Publishing Co. Pte. Ltd], Issue: EPFL-CHAPTER-197859 Pages: 88-113

C Clivati, G Bolognini, GA Costanzo, D Calonico, Stefano Faralli, M Frittelli, M Levi, A Mura, N Poli

Distributed Amplification for Coherent Optical Fiber Links

Proceedings Fotonica 2013 [AEIT],

A Signorini, M Soto, Stefano Faralli, Gabriele Bolognini, Fabrizio Cesare Filippo DI PASQUALE, E Fedeli, E Marzilli, R Tarelli

Progetto e sviluppo di sensori distribuiti di temperatura in fibra ottica per rivelazione di incendi in gallerie ferroviarie

Atti del Convegno Nazionale sulla Sicurezza ed Esercizio Ferroviario [ARACNE],

M Soto, Gabriele Bolognini

Studio di prestazioni in sensori in fibra ottica per la misura simultanea di temperatura e deformazione basati su effetto Brillouin con utilizzo di codifica e rivelazione coerente

Fotonica 2009, Atti del Congresso [Associazione per la Tecnologia dell’Informazione e delle Comunicazioni (AICT).], Pages: C. 4.2

Fabrizio Cesare Filippo DI PASQUALE, Stefano Faralli, Gabriele Bolognini

Tecniche avanzate di amplificazione Raman co-propagante per sistemi di trasmissione ottica WDM non ripetuti

Fotonica 2007, Atti del Convegno [AEIT], Volume: 1 Pages: A7. 1-1-A7. 1-4

Gabriele Bolognini, MA Soto, Fabrizio Cesare Filippo DI PASQUALE, J Park, N Park

Sensori distribuiti di temperatura in fibra ottica basati su effetto Raman mediante codifica di impulso e amplificazione Raman concentrata

Atti del COnvegno, Fotonica 2007 [AEIT], Volume: 1 Pages: B5. 2-1-B5. 2-4

Fabrizio Cesare Filippo DI PASQUALE, G Bolognini, Stefano Faralli, A Chiucchiarelli

Advanced Raman co-pumping schemes for improved performance in unrepeated WDM transmission systems

Proceedings of 2006 China-Italy Bilateral Workshop on Photonics for Communication and Sensing [N/A],

Stefano Faralli, P Kim, C Cantini, G Sacchi, Gabriele Bolognini, N Park, Fabrizio Cesare Filippo DI PASQUALE

High gain and low noise discrete amplifier based on a 2nd-order Raman fiber ring oscillator

Proceedings of the European Conference on Optical Communication ECOC 2005 [The Institute for Electric and Electronics Engineering, IEEE Publishing], Volume: 1 Pages: Th3. 3.3-1-Th3. 3.3-2

Gabriele Bolognini, S Sugliani, Fabrizio Cesare Filippo DI PASQUALE

Pompaggio Raman bi-direzionale su fibre DSF per riduzione di FWM tra canali WDM

Fotonica 2005, Atti del Convegno [AEIT], Volume: 1 Pages: B6. 2-1-B6. 2-4

J Park, Gabriele Bolognini, P Kim, D Lee, Fabrizio Cesare Filippo DI PASQUALE, N Park

Performance enhancement of Raman distributed temperature sensor using Simplex codes

Proceedings of Photonics Conference 2005 [Photonics Conference 2005], Volume: 1 Pages: FP41-1-FP41-2

Stefano Faralli, Gabriele Bolognini, Giovanni Sacchi, Fabrizio Di Pasquale

Raman Amplifier Structure

US20080297883 [],