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MgSiP<sub>2</sub>: An Infrared Nonlinear Optical Crystal with a Large Non‐Resonant Phase‐Matchable Second Harmonic Coefficient and High Laser Damage Threshold

Jingyang He, Yingdong Guan, Victor Trinquet, Guillaume Brunin, Ke Wang, Robert A. Robinson, Rui Zu, Suguru Yoshida, Seng Huat Lee, Yu Wang, Yanglin Zhu, Gian‐Marco Rignanese, Zhiqiang Mao, Venkatraman Gopalan

2023Advanced Optical Materials15 citationsDOIOpen Access PDF

Abstract

Abstract Superior infrared nonlinear optical (NLO) crystals are in urgent demand in the development of lasers and optical technologies for communications and computing. The critical challenge is to find a crystal with large non‐resonant phase‐matchable NLO coefficients and high laser damage threshold (LDTs) simultaneously, which however scale inversely. This work reports such a material, MgSiP 2, that exhibits a large second harmonic generation (SHG) coefficient of d 14 ≈ d 36 = 89 ± 5 pm V −1 at 1550 nm fundamental wavelength, surpassing the commercial NLO crystals AgGaS 2 , AgGaSe 2 , and ZnGeP 2 . First principles theory reveals the polarizability and geometric arrangement of the [SiP 4 ] tetrahedral units as the origin of this large nonlinear response. Remarkably, it also exhibits a high LDT value of 684 GW cm −2 , which is six times larger than ZnGeP 2 and three times larger than CdSiP 2 . It has a wide transparency window of 0.53–10.35 µm, allowing broadband tunability. Further, it is Type I and Type II phase‐matchable with large effective SHG coefficients of d eff,I ≈80.2 pm V −1 and d eff,II ≈73.4 pm V −1 . The outstanding properties of MgSiP 2 make it a highly attractive candidate for optical frequency conversion in the infrared.

Topics & Concepts

Materials sciencePolarizabilityInfraredLaserSecond-harmonic generationCrystal (programming language)Nonlinear opticsWavelengthPhase (matter)Nonlinear opticalOpticsOptoelectronicsNonlinear systemPhysicsComputer scienceProgramming languageQuantum mechanicsMoleculePhotorefractive and Nonlinear OpticsCrystal Structures and PropertiesSolid State Laser Technologies