High-temperature sensing using surface relief fiber Bragg gratings TL Lowder, KH Smith, BL Ipson, AR Hawkins, RH Selfridge, SM Schultz IEEE photonics technology letters 17 (9), 1926-1928, 2005 | 114 | 2005 |
Volatile organic compound sensing using a surface-relief D-shaped fiber Bragg grating and a polydimethylsiloxane layer TL Lowder, JD Gordon, SM Schultz, RH Selfridge Optics letters 32 (17), 2523-2525, 2007 | 68 | 2007 |
Surface-relief fiber Bragg gratings for sensing applications KH Smith, BL Ipson, TL Lowder, AR Hawkins, RH Selfridge, SM Schultz Applied optics 45 (8), 1669-1675, 2006 | 61 | 2006 |
Optical D-fiber-based volatile organic compound sensor JD Gordon, TL Lowder, RH Selfridge, SM Schultz Applied optics 46 (32), 7805-7810, 2007 | 25 | 2007 |
Single-frequency 336 W spliceless all-fiber amplifier based on a chirally-coupled-core fiber for the next generation of gravitational wave detectors S Hochheim, E Brockmüller, P Wessels, J Koponen, T Lowder, S Novotny, ... Journal of Lightwave Technology 40 (7), 2136-2143, 2022 | 21 | 2022 |
Single-frequency chirally coupled-core all-fiber amplifier with 100 W in a linearly polarized TEM00 mode S Hochheim, M Steinke, P Wessels, O De Varona, J Koponen, T Lowder, ... Optics letters 45 (4), 939-942, 2020 | 20 | 2020 |
Limits of femtosecond fiber amplification by parabolic pre-shaping W Fu, Y Tang, TS McComb, TL Lowder, FW Wise JOSA B 34 (3), A37-A42, 2017 | 18 | 2017 |
Temporal response of surface-relief fiber Bragg gratings to high temperature CO 2 laser heating TL Lowder, JA Newman, WM Kunzler, JD Young, RH Selfridge, ... Applied optics 47 (20), 3568-3573, 2008 | 13 | 2008 |
High-peak power, flexible-pulse parameter, chirally coupled core (3C) fiber-based picosecond MOPA systems TS McComb, D McCal, R Farrow, TL Lowder, D Logan, J Green, ... SPIE LASE, 896112-896112-9, 2014 | 11 | 2014 |
Packaging of surface relief fiber Bragg gratings for use as strain sensors at high temperature RH Selfridge, SM Schultz, TL Lowder, VP Wnuk, A Méndez, S Ferguson, ... Smart Structures and Materials, 616702-616702-7, 2006 | 11 | 2006 |
Fully controllable burst shaping individual pulses from picosecond fiber lasers T Lowder, TN Kutscha, D McCal, TS McComb, J Green US Patent 9,837,784, 2017 | 8 | 2017 |
Polarization analysis of surface-relief D-fiber Bragg gratings TL Lowder, BR Tebbs, RH Selfridge, SM Schultz, KH Smith, TD Monte Applied optics 46 (13), 2387-2393, 2007 | 8 | 2007 |
Highly-Integrated Signal and Pump Combiner in Chirally-Coupled-Core Fibers S Hochheim, E Brockmüller, P Wessels, M Steinke, J Koponen, T Lowder, ... Journal of Lightwave Technology 39 (22), 7246-7250, 2021 | 7 | 2021 |
Multi-Axis Bend Sensing Using a Single Surface Relief Fiber Bragg Grating TL Lowder, BR Tebbs, SM Schultz, RH Selfridge Optical Fiber Sensors, TuB4, 2006 | 7 | 2006 |
Advanced FBG sensing through rapid spectral interrogation W Kunzler, J Newman, D Wilding, Z Zhu, T Lowder, R Selfridge, S Schultz, ... The 15th International Symposium on: Smart Structures and Materials …, 2008 | 6 | 2008 |
Advanced metal processing enabled by fiber lasers with tunable beam properties DA Kliner, RL Farrow, J Lugo, B O'Dea, R Hawke, B Victor, K Gross, ... Fiber Lasers XIX: Technology and Systems 11981, 72-85, 2022 | 5 | 2022 |
Surface relief D-fiber Bragg gratings for sensing applications TL Lowder ProQuest, 2008 | 5 | 2008 |
Monolithic amplifier based on a Chirally-coupled-core fiber S Hochheim, M Steinke, J Koponen, T Lowder, S Novotny, J Neumann, ... The European Conference on Lasers and Electro-Optics, cj_p_19, 2019 | 4 | 2019 |
Low noise spliceless single-frequency chirally-coupled-core all-fiber amplifier S Hochheim, E Brockmüller, P Wessels, J Koponen, T Lowder, S Novotny, ... Fiber Lasers XVIII: Technology and Systems 11665, 116651L, 2021 | 3 | 2021 |
Pump combiner with chirally coupled core fibers for side pumped single frequency all fiber amplifiers E Brockmüller, S Hochheim, P Wessels, J Koponen, T Lowder, S Novotny, ... Components and Packaging for Laser Systems VII 11667, 116670J, 2021 | 3 | 2021 |