Periodically poled BaMgF<sub>4</sub> for ultraviolet frequency generation

S. C. Buchter; T. Y. Fan; V. Liberman; J. J. Zayhowski; M. Rothschild; E. J. Mason; A. Cassanho; H. P. Jenssen; J. H. Burnett

doi:10.1364/OL.26.001693

Optics Letters
Vol. 26,
Issue 21,
pp. 1693-1695
(2001)
•https://doi.org/10.1364/OL.26.001693

Periodically poled BaMgF₄ for ultraviolet frequency generation

S. C. Buchter, T. Y. Fan, V. Liberman, J. J. Zayhowski, M. Rothschild, E. J. Mason, A. Cassanho, H. P. Jenssen, and J. H. Burnett

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S. C. Buchter, T. Y. Fan, V. Liberman, J. J. Zayhowski, M. Rothschild, E. J. Mason, A. Cassanho, H. P. Jenssen, and J. H. Burnett, "Periodically poled BaMgF₄ for ultraviolet frequency generation," Opt. Lett. 26, 1693-1695 (2001)

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Abstract

Ferroelectric domain inversion has been demonstrated in ${BaMgF}_{4}$ . Transparency has been measured to $< 140 nm$ , and no change in transmission was measured under 157-nm irradiation for $> 1.1 \times 10^{9}$ shots at $2 mJ / {cm}^{2}$ per pulse. First-order quasi-phase-matched generation of 157 nm is predicted by use of grating periods as long as $1.5 μ m$ . This material should permit shorter-wavelength $χ^{(2)}$ frequency-mixing processes than with any other crystalline material.

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	$n_{b}$		$n_{c}$
Wavelength (nm)	Measured	Calculated	Measured	Calculated
157.6299	1.5871	1.5871	1.6138	1.6138
480.1254	1.4529	1.4529	1.470467	1.4705
501.7077	1.4519	1.4519	1.469492	1.4695
508.7240	1.4517	1.4517	1.469179	1.4692
532	1.450^a	1.4508	1.467^a	1.4683
532	1.4508^b	1.4508	1.4678^b	1.4683
546.2260	1.4504	1.4504	1.4678	1.4678
587.7254	1.4492	1.4492	1.4666	1.4666
644.0250	1.4480	1.4480	1.4652	1.4652
1064	1.439^a	1.4442	1.458^a	1.4612
1064	1.4436^b	1.4442	1.4604^b	1.4612

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Optics Letters