2016
DOI: 10.1002/latj.201600022
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Recent Breakthroughs in Solid‐State Mid‐IR Laser Technology

Abstract: Availability of compact and cost-efficient mid-infrared (MIR) laser sources with a broad range of parameters is of great interest for a number of current and emerging applications. For instance, femtosecond (fs) MIR sources with high average power and broad spectral span enable high dynamic range spectroscopy, sensing, and imaging in the molecular fingerprint region. On the other hand, few-optical-cycle MIR pulses with high energy are of particular importance for the development of EUV and X-ray sources based … Show more

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Cited by 18 publications
(8 citation statements)
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“…They allow the production of pulses as short as 380 fs [269] by themselves and can be used additionally as a pump for another ultra-broadband laser material, which will offer the two-step approach. Suitable materials for such a scheme are the transition-metal-doped zinc chalcogenides [270][271][272][273] . Since the pioneering work of DeLoach et al in 1996 [274] showing a slope efficiency of 22% with Cr:ZnSe, many promising results have been produced.…”
Section: The Development Of Mid-infrared Lasersmentioning
confidence: 99%
“…They allow the production of pulses as short as 380 fs [269] by themselves and can be used additionally as a pump for another ultra-broadband laser material, which will offer the two-step approach. Suitable materials for such a scheme are the transition-metal-doped zinc chalcogenides [270][271][272][273] . Since the pioneering work of DeLoach et al in 1996 [274] showing a slope efficiency of 22% with Cr:ZnSe, many promising results have been produced.…”
Section: The Development Of Mid-infrared Lasersmentioning
confidence: 99%
“…Халькогениды цинка, легированные двухвалентными ионами хрома и железа, являются перспективными материалами для создания активных сред лазеров, излучающих в среднем ИК диапазоне (1.9−5 µm) [1][2][3][4][5]. Источники лазерного излучения данного диапазона широко используются в самых различных областях, включая молекулярную спектроскопию, мониторинг окружающей среды, медицину, дальнометрию, оптическую связь и др.…”
Section: Introductionunclassified
“…Выходные характеристики лазеров на ZnSe(S):Cr 2+ (Fe 2+ ) во многом зависят от способа введения допанта и структуры материала генерирующей среды [3,6]. Применяют различные способы изготовления лазерных сред: диффузионное легирование предварительно синтезированного материала, чаще всего полученного методом химического осаждения из газовой фазы (CVD), легирование в процессе выращивания из расплава, физическое осаждение из пара (PVD) [3,5].…”
Section: Introductionunclassified
“…| 6619 XIA et Al. or femtosecond-pulsed lasers [6][7][8] . Cr 2+ can be stably present in tetrahedral coordinated ZnSe crystals to produce an effectively tunable MIR laser, but it is impossible in chalcogenide glasses.…”
mentioning
confidence: 99%