MATHEMATICAL REPRODUCTION OF ENERGETIC, YTTERBIUM-DOPED AMPLIFIER TUNABILITY
Abstract
The investigation of frequency tunability for the addition media Yb:CaF2 and Yb:YAG in a
regenerative speaker design, was performed by utilizing a reenactment code beforehand
benchmarked with genuine information. The outcomes show that the two materials have
potential for intensifying heartbeats up to the milijoule level for frequencies around 1048–1049
nm. Considering this, we propose and assess their presentation as gain media in the pre-speaker
of a half breed chain working at 1053 nm.
Keywords
laser enhancers, reenactment, ytterbium lasers;How to Cite
References
Zeal, A.H High energy picosecond Yb:YAG CPA framework at 10 Hz redundancy rate for
siphoning optical parametric enhancers. Select. Express2012, 19, 5357–5364.
Kohler, B.; Yakovlev, V.V. Polaris: An All Diode-Pumped Ultrahigh Peak Power Laser for High
Repetition Rates. In Laser and Nuclei, Lecture Notes in Physics; Springer: Berlin, Germany, 2007;
Volume 694, pp. 47–67.
Krause, J.L.; Messina, M.; Wilson, K.R.;. New laser precious stones for the age of ultrashort
beats. C.R.Physique2008, 8, 153–165.
Gu, X.; Xu, L.; Kimmel, M.; Zees, E.; O’Shea, P.; Shreenath,; Guandalini, A. 40-fs Yb3+:CaGdAlO4
laser siphoned by a solitary mode 350-mW laser diode. Pick. Express2013, 20, 10077–10081.
Cao, Q.; Gu, X.; Zeek, E.; Kimmel, M.. Mathematical and exploratory investigation of gain
narrowing in ytterbium-based regenerative speakers. IEEE J. Quant. Electron. 2006, 41, 415–424.
Zhang, J.-Y.; Lee, C.-K.; Huang, J.Y. Assessment of cross breed ytterbium–neodymium laser
intensification at 1054 nm. Appl. Phys. B2011, 101, 103–109
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