Xiang Peng, Ph.D.
Affiliations: | 2004 | University of Arizona, Tucson, AZ |
Area:
Optics PhysicsGoogle:
"Xiang Peng"Mean distance: (not calculated yet)
Parents
Sign in to add mentorNasser Peyghambarian | grad student | 2004 | University of Arizona | |
(Erbium-doped tellurite glass microsphere amplifiers and lasers.) |
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Publications
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Kim K, Peng X, Lee W, et al. (2015) Monolithic polarization maintaining fiber chirped pulse amplification (CPA) system for high energy femtosecond pulse generation at 1.03 µm. Optics Express. 23: 4766-70 |
Peng X, Kim K, Mielke M, et al. (2014) Monolithic fiber chirped pulse amplification system for millijoule femtosecond pulse generation at 1.55 µm. Optics Express. 22: 2459-64 |
Peng X, Kim K, Mielke M, et al. (2014) Monolithic fiber chirped pulse amplification system for millijoule femtosecond pulse generation at 1.55 μm Optics Express. 22: 2459-2464 |
Kim K, Peng X, Lee W, et al. (2014) 215 μj, 16 W femtosecond fiber laser for precision industrial micro-machining Proceedings of Spie - the International Society For Optical Engineering. 8961 |
Peng X, Kim K, Mielke M, et al. (2013) Higher-order mode fiber enables high energy chirped-pulse amplification. Optics Express. 21: 32411-6 |
Peng X, Kim K, Mielke M, et al. (2013) High efficiency, monolithic fiber chirped pulse amplification system for high energy femtosecond pulse generation. Optics Express. 21: 25440-51 |
Peng X, Kim K, Gu X, et al. (2013) Root cause analysis and solution to the degradation of wavelength division multiplexing (WDM) couplers in high power fiber amplifier system. Optics Express. 21: 20052-61 |
Peng X, Kim K, Mielke M, et al. (2013) Higher-order mode fiber enables high energy chirped-pulse amplification Optics Express. 21: 32411-32416 |
Wang YY, Peng X, Alharbi M, et al. (2012) Design and fabrication of hollow-core photonic crystal fibers for high-power ultrashort pulse transportation and pulse compression. Optics Letters. 37: 3111-3 |
Dong L, Li J, Peng X. (2012) Bend-resistant fundamental mode operation in ytterbium-doped leakage channel fibers with effective areas up to 3160 microm(2). Optics Express. 14: 11512-9 |