Room-temperature Fe:ZnSe laser tunable in the spectral range of 3.7–5.3 µm applied for intracavity absorption spectroscopy of CO2 isotopes, CO and N2O
P Fjodorow, MP Frolov, YV Korostelin, VI Kozlovsky… - Optics …, 2021 - opg.optica.org
We demonstrate an intracavity absorption spectroscopy system based on a broadband
single-crystal pulsed Fe: ZnSe laser. The laser operates at room-temperature and is …
single-crystal pulsed Fe: ZnSe laser. The laser operates at room-temperature and is …
Resonantly pumped Ce3+ mid-infrared lasing in selenide glass
BI Denker, BI Galagan, SE Sverchkov, VV Koltashev… - Optics Letters, 2021 - opg.optica.org
Resonantly pumped Ce3+ mid-infrared lasing in selenide glass clickable element to expand a
topic LOGIN OR CREATE ACCOUNT PRISM SUBMISSION This website uses cookies to …
topic LOGIN OR CREATE ACCOUNT PRISM SUBMISSION This website uses cookies to …
High-energy thermoelectrically cooled Fe: ZnSe laser tunable over 3.75–4.82 μm
MP Frolov, YV Korostelin, VI Kozlovsky… - Optics letters, 2018 - opg.optica.org
The characteristics of an Fe: ZnSe laser thermoelectrically cooled to 220 K are described.
Output energy of 7.5 J and optical-to-optical efficiency of 30% have been demonstrated in …
Output energy of 7.5 J and optical-to-optical efficiency of 30% have been demonstrated in …
Mid-IR (4.4 μm) Zn1−xMnxSe:Cr2+,Fe2+ (x = 0.3) laser pumped by 1.7 μm laser using Cr2+-Fe2+ energy transfer
ME Doroshenko, H Jelínková, A Říha, M Jelínek… - Optics Letters, 2019 - opg.optica.org
This Letter determines the Cr^ 2+-Fe^ 2+ ions energy transfer process parameters in the
Zn_1− xMn_xSe: Cr^ 2+, Fe^ 2+(x= 0.3) crystal and demonstrates a dipole-dipole type of the …
Zn_1− xMn_xSe: Cr^ 2+, Fe^ 2+(x= 0.3) crystal and demonstrates a dipole-dipole type of the …
Comparison of novel Fe2+: Zn1-xMnxTe (x≈ 0.3) laser crystal operating near 5 μm at 78 K with other known Mn co-doped A II-BVI solid solutions
Spectroscopic and laser output characteristics of novel Fe 2+-doped Zn 1-x Mn x Te (x≈ 0.3)
active material are presented and compared to other known Fe 2+-based materials. At~ 3 …
active material are presented and compared to other known Fe 2+-based materials. At~ 3 …
Study of a room temperature, monocrystalline Fe: ZnSe laser, pumped by a high-energy, free-running Er: YAG laser
MP Frolov, YV Korostelin, VI Kozlovsky… - Laser …, 2019 - iopscience.iop.org
The energy and spectral characteristics of an Fe: ZnSe laser, pumped by 300 µs pulses of a
2.94 µm flash-lamp pumped free-running Er: YAG laser, are studied in the temperature …
2.94 µm flash-lamp pumped free-running Er: YAG laser, are studied in the temperature …
Long-pulse 4.4–4.6 μm laser oscillations of Fe2+ ions in a Zn1-xMnxSe (x = 0.3) crystal pumped by a 1940 nm Tm fiber laser through Cr2+ → Fe2+ energy transfer
Millisecond-pulse laser operation of Fe^ 2+ ions at 78 K is demonstrated in the Zn_1−
xMn_xSe: Fe^ 2+, Cr^ 2+(x= 0.3) crystal under a Tm fiber 1940 nm laser pumping through a …
xMn_xSe: Fe^ 2+, Cr^ 2+(x= 0.3) crystal under a Tm fiber 1940 nm laser pumping through a …
Mid-IR lasing of Fe2+ ions via Cr2+ → Fe2+ energy transfer process with YLF:Er or laser diode pumping at 1.7 µm
A Říha, H Jelínková, ME Doroshenko… - Optical Materials …, 2020 - opg.optica.org
A nonradiative Cr^ 2+→ Fe^ 2+ ions energy transfer process in Zn_1-xMn_xSe: Cr^ 2+, Fe^
2+(x= 0.05) single crystal with a Cr^ 2+ to Fe^ 2+ ions concentration ratio about 2.5: 1 was …
2+(x= 0.05) single crystal with a Cr^ 2+ to Fe^ 2+ ions concentration ratio about 2.5: 1 was …
Diffusion of iron in zinc selenide during hot isostatic pressing
VB Ikonnikov, ТV Kotereva, DV Savin, AM Potapov… - Optical Materials, 2024 - Elsevier
The diffusion of iron impurities in zinc selenide (ZnSe) during hot isostatic pressing (HIP) in
the temperature range T= 1000–1300° C and pressures P= 100–190 MPa has been …
the temperature range T= 1000–1300° C and pressures P= 100–190 MPa has been …
Generation of few-cycle radiation pulses in the IR spectral range (1.3–2.2 μm) using wide-aperture BBO crystals pumped by a terawatt Ti: sapphire laser
EA Migal, DZ Suleimanova, FV Potemkin - Quantum Electronics, 2021 - iopscience.iop.org
Different schemes of parametric amplification (PA), aimed at designing a source of
femtosecond near-IR (1.3–2.2 μm) radiation, are compared by solving a system of truncated …
femtosecond near-IR (1.3–2.2 μm) radiation, are compared by solving a system of truncated …