Publications
Two-Stage Performance of Polarization-Maintaining Holmium-Doped Fiber Amplifiers
“Two-Stage Performance of Polarization-Maintaining Holmium-Doped Fiber Amplifiers”, Robert E. Tench, Clement Romano, Glen M. Williams, Jean-Marc Delavaux, Thierry Robin, Benoit Cadier, and Arnaud Laurent, IEEE Journal of Lightwave Technology 37, 1434—1439 (2019).
Read MoreShared Pump Two-Stage Polarization-Maintaining Holmium-Doped Fiber Amplifier
“Shared Pump Two-Stage Polarization-Maintaining Holmium-Doped Fiber Amplifier”, Robert E. Tench, Clement Romano, and J.-M. Delavaux, IEEE Photonics Technology Letters 31, 357—360 (2019).
Read More25 W 2 µm Broadband Polarization-Maintaining Hybrid Ho- and Tm-Doped Fiber Amplifier
“25 W 2 µm Broadband Polarization-Maintaining Hybrid Ho- and Tm-Doped Fiber Amplifier”, Robert E. Tench, Clement Romano, and Jean-Marc Delavaux, in Proc. SPIE 10897, Fibers Lasers XVI: Technology and Systems, Photonics West 2019, San Francisco, CA (February 2019).
Read MorekW pulsed nanosecond TDFL with direct modulation
“kW pulsed nanosecond TDFL with direct modulation”, Clement Romano, Robert E. Tench, Yves Jaouen, and J.-M. Delavaux, in Proc. SPIE 10897, Fibers Lasers XVI: Technology and Systems, Photonics West 2019, San Francisco, CA (February 2019).
Read More20 W 1952 nm Tandem Hybrid Single and Double Clad TDFA
“20 W 1952 nm Tandem Hybrid Single and Double Clad TDFA”, C. Romano, R. E. Tench, and J.-M. Delavaux, Optical Fiber Technology 48, 58—64 (2019).
Read MoreBroadband High Gain Polarization-Maintaining Holmium-doped Fiber Amplifiers
“Broadband High Gain Polarization-Maintaining Holmium-doped Fiber Amplifiers,” Robert E. Tench, Clement Romano, Jean-Marc Delavaux, Thierry Robin, Benoit Cadier, and Arnaud Laurent, in Proc. ECOC 2018, Rome, Italy, September 2018, Paper Mo3E.3.
Read More5 W 1952 nm Brillouin-Free Efficient Single Clad TDFA
“5 W 1952 nm Brillouin-Free Efficient Single Clad TDFA”, C. Romano, R. E. Tench, and J.-M. Delavaux, Optical Fiber Technology 46, 186—191 (2018).
Read More8W 1952nm Highly Efficient Brillouin-free Single Clad TDFA
“8W 1952nm Highly Efficient Brillouin-free Single Clad TDFA,” Clement Romano, Robert E. Tench, and Jean-Marc-Delavaux, in Proc. ECOC 2018, Rome, Italy, September 2018, Paper We2.5.
Read MoreSimulation of 2 μm thulium-doped single clad silica fiber amplifiers by characterization of the 3F4-3H6 transition
“Simulation of 2 μm thulium-doped single clad silica fiber amplifiers by characterization of the 3F4-3H6 transition,” Clement Romano, Robert E. Tench, and Jean-Marc-Delavaux, Optics Express 26, 26080—26092 (2018).
Read MoreMultistage single clad 2 μm TDFA with a shared L-band pump source
“Multistage single clad 2 μm TDFA with a shared L-band pump source,” Robert E. Tench, Clement Romano, and Jean-Marc Delavaux, Applied Optics 57 (21), 5948-5955 (2018).
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