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Proceedings Paper

New Yb-doped crystals for high-power and ultrashort lasers
Author(s): F. Druon; J. Boudeile; Y. Zaouter; M. Hanna; F. Balembois; P. Georges; J. Petit; P. Golner; B. Viana
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Paper Abstract

Since the beginning of the 90's, Titanium Sapphire has become the crystal of choice for the development of ultrashort laser system producing very short and powerful pulses using the Chirped Pulse Amplification technique. In parallel to these developments leading to commercial products, new laser crystals have been studied in order to reach directly other wavelength range and to overcome the need to develop cw or pulsed green laser to pump the Titanium Sapphire crystal. In order to be able to directly pump the crystals with very efficient and high power semiconductor laser, new crystals doped with ytterbium ions have been developed. Actually, in the field of femtosecond lasers, an intense interest has been shown for ytterbium-doped laser-crystals. These crystals are now well-known to be particularly suitable for very efficient, directly-diode-pumped, solid state femtosecond oscillators. However, it has been shown that the spectral properties of the Yb3+ dopant strongly depend on the matrix host and a lot of works have been done to find the "ideal" matrix allowing both ultrashort-pulsed and high-power lasers. Firstly, in order to take advantage of the very high-power laser diodes available to pump Yb-doped materials, ideal crystals need to be able to hold high power pumping; so high thermal conductivity is required (\>5W/m/K, typically). Secondly, to generate very short pulses (<100 fs) ideal crystals have to demonstrate very broad and smooth spectra. Among the numerous Yb-doped crystals already studied, many failed with one of these two contradictory criteria (contradictory because broad spectra are often synonymous of high disorder in the host lattice and the good thermal conductivity requires an ordered matrix to allow good propagation of phonons). In this paper, we are relating the performance of a new Yb-doped crystal: Yb:CaGdAlO4 (Yb:CALGO) and how it takes place in this quest of "ideal" crystal. Actually, this very new crystal allowed, to our best knowledge, the shorter pulses ever produced with an Yb-doped crystal with the production of 47 fs pulses. Moreover, compared to other crystals allowing the production of sub-100 fs pulses such as Yb:GdCOB, Yb:BOYS and Yb:KGW, the atypical CALGO shows a thermal conductivity of 6.5W/m/K.

Paper Details

Date Published: 18 October 2006
PDF: 16 pages
Proc. SPIE 6400, Femtosecond Phenomena and Nonlinear Optics III, 64000D (18 October 2006); doi: 10.1117/12.690276
Show Author Affiliations
F. Druon, Lab. Charles Fabry de l'Institut d'Optique, Ctr. Univ. d'Orsay (France)
J. Boudeile, Lab. Charles Fabry de l'Institut d'Optique, Ctr. Univ. d'Orsay (France)
Y. Zaouter, Lab. Charles Fabry de l'Institut d'Optique, Ctr. Univ. d'Orsay (France)
M. Hanna, Lab. Charles Fabry de l'Institut d'Optique, Ctr. Univ. d'Orsay (France)
F. Balembois, Lab. Charles Fabry de l'Institut d'Optique, Ctr. Univ. d'Orsay (France)
P. Georges, Lab. Charles Fabry de l'Institut d'Optique, Ctr. Univ. d'Orsay (France)
J. Petit, Lab. de Chimie Appliquée, École Nationale Supérieure de Chimie de Paris (France)
P. Golner, Lab. de Chimie Appliquée, École Nationale Supérieure de Chimie de Paris (France)
B. Viana, Lab. de Chimie Appliquée, École Nationale Supérieure de Chimie de Paris (France)


Published in SPIE Proceedings Vol. 6400:
Femtosecond Phenomena and Nonlinear Optics III
Sean M. Kirkpatrick; Razvan Stoian, Editor(s)

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