Superfund Research Program
Dmitry Martyshkin
University of Alabama at Birmingham
Department of Physics
1300 University Blvd
Campbell Hall 310
Birmingham, Alabama 35294-1170
Email: dmartych@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
2022
- 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
- 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