Journal
IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS
Volume 21, Issue 1, Pages -Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/JSTQE.2014.2341589
Keywords
Laser; mid-infrared; near-infrared; optical pulse generation; laser mode-locking; laser tuning; sensors; chemical hazards; gas detectors
Categories
Funding
- Austrian Science Fund [P24916]
- EU-FET GRAPHENICS [618086]
- Norwegian Research Council [FRITEK/191614]
- Nano 2021 Project [N219686]
- Austrian Science Fund (FWF) [P24916] Funding Source: Austrian Science Fund (FWF)
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We review a novel class of femtosecond Cr2+-doped ZnSe and ZnS lasers, which operates in a very important for applications wavelength range between 2 and 3.5 mu m and which generates ultrashort optical pulses that are only five optical cycles in duration. Room-temperature Cr2+-lasers provide tens of Watts average power, >70% slope efficiency, ultrabroad tunability (similar to 1400 nm between 2 and 3.4 mu m) in the continuous wave regime and GW-level peak powers in the amplified femtosecond regime. Different mode-locking techniques from Kerr-lens to graphene saturable absorbers have been demonstrated, and dispersion compensation methods from bulk materials to chirped mirrors allowed the realization of self-starting few-optical cycle oscillators and the demonstration of a number of applications in spectroscopy and nonlinear optics. The Watt level few-optical cycle Cr:ZnS oscillator(1) operating at 2.4 mu m is distinguished by extremely short pulse duration of only 41 fs, hundreds of kilowatt peak powers, and tens of nanojoule pulse energies. Using the direct diode-pumping or fiber laser pump sources such a laser can be made reliable and compact, which paves the way to industrial realisation and applications in environmental analysis, oil and gas sensing, hazardous gas detection, breath analysis, fine material processing of semiconductors, composite materials, and glasses.
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