Superfund Research Program

Vladimir Fedorov

University of Alabama at Birmingham
Department of Physics
Campbell Hall 421
1300 University Blvd
Birmingham, Alabama 35294-1170
Phone: 205-934-5318
Email: vfedorov@uab.edu

Projects

• University of Alabama at Birmingham: Advanced Approaches to Quantifying Exposure to Heavy Metals (2020-2025)

Publications

2023

• Danilin R, Fedorov V, Martyshkin D, Gafarov O, Mirov S. 2023. Spectral narrowing and broadening of Cr:ZnS/Se laser oscillation due to mode competition and spatial hole burning in the gain element. Opt Express 31(8):12686-12692. doi:10.1364/OE.486474 PMID:37157424 PMCID:PMC10316678
• Martyshkin D, Fedorov V, Hamlin SJ, Mirov S. 2023. 350 mJ electro-optically Q-switched 2.79 micrometers Cr:Er:YSGG MOPA. Opt Express 31(11):18525-18532. doi:10.1364/OE.487602 PMID:37381562 PMCID:PMC10316748
• Watkins R, Fedorov V, Zvanut ME, Bhandari S, Barnakov Y, Mirov S. 2023. Optical, electrical, and EPR studies of polycrystalline Al:Cr:ZnSe gain elements. Opt Mater Express 13(5):1497-1503. doi:10.1364/OME.486169

2022

• Chang Z, Fang L, Fedorov V, Geiger C, Ghimire S, Heide C, Ishii N, Itatani J, Joshi C, Kobayashi Y, Kumar P, Marra A, Mirov S, Petrushina I, Polyanskiy M, Reis DA, Tochitsky S, Vasilyev S, Wang L, Wu Y, Zhou F. 2022. Intense infrared lasers for strong-field science. Adv Opt Photonics 14(4):652-782. doi:10.1364/AOP.454797
• Karki K, Fedorov V, Martyshkin D, Mirov S. 2022. High energy mechanically Q-switched Er:YAG laser operating at 2940 nm. Proc SPIE Int Soc Opt Eng doi:10.1117/12.2623365
• Smolski V, Moskalev I, Vasilyev S, Peppers J, Mirov M, Fedorov V, Martyshkin D, Mirov S. 2022. High-energy Q-switched 120 mJ Ho:YAG lasers at 500 Hz repetition rate. Proc SPIE Int Soc Opt Eng doi:10.1117/12.2623264

2021

• Karki K, Fedorov V, Martyshkin D, Mirov S. 2021. High energy (0.8 J) mechanically Q-switched 2.94 micron Er:YAG laser. Opt Express 29(3):4287-4295. doi:10.1364/OE.417301 PMID:33771011 PMCID:PMC7920523
• Martyshkin D, Karki K, Fedorov V, Mirov S. 2021. Room temperature, nanosecond, 60 mJ/pulse Fe:ZnSe master oscillator power amplifier system operating at 3.8-5.0 microns. Opt Express 29(2):2387-2393. doi:10.1364/OE.416574 PMID:33726434 PMCID:PMC7920527
• Pigeon J, Tovey D, Tochitsky S, Louwrens G, Ben-Zvi I, Martyshkin D, Fedorov V, Karki K, Mirov S, Joshi C. 2021. Resonant nonlinear refraction of 4-5 micron light in CO and CO2 gas. Physical Review A 104:doi:10.1103/PhysRevA.104.043519
• Subedi S, Fedorov V, Mirov S, Markham M. 2021. Spectroscopy of GR1 centers in synthetic diamonds. Opt Mater Express 11(3):757-765. doi:10.1364/OME.417432
• Tovey D, Pigeon J, Tochitsky S, Louwrens G, Ben-Zvi I, Martyshkin D, Fedorov V, Karki K, Mirov S, Joshi C. 2021. Lasing in 15 atm CO2 cell optically pumped by a Fe:ZnSe laser. Opt Express 29(20):31455-31464. doi:10.1364/OE.434670 PMID:34615237
• Vasilyev S, Moskalev I, Smolski V, Peppers J, Merov M, Fedorov V, Barnakov Y, Martyshkin D, Mirov S, Gapontsev V. 2021. Kerr-lens mode-locked Cr:ZnS oscillator reaches the spectral span of an optical octave. Opt Express 29:doi:10.1364/OE.411984 PMID:33726440 PMCID:PMC7920525

2020

• Gafarov O, Watkins R, Fedorov V, Mirov S. 2020. Cross-section of electrical impact excitation in bulk n-type monocrystalline Al:Cr:ZnSe. Opt Mater Express 10:2135-2141. doi:10.1364/OME.402399
• Nam S, Fedorov V, Mirov S, Hong K. 2020. Octave-spanning mid-infrared femtosecond OPA in a ZnGeP2 pumped by a 2.4 mu m Cr:ZnSe chirped-pulse amplifier. Opt Express 28:32403-32414. doi:10.1364/OE.405648 PMID:33114927 PMCID:PMC7679192