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Quasi-phase-matching enabled by van der Waals stacking

Yilin Tang, Kabilan Sripathy, Hao Qin, Zhuoyuan Lu, Giovanni Guccione, Jiří Janoušek, Yi Zhu, Md. Mehedi Hasan, Yoshihiro Iwasa, Ping Koy Lam, Yuerui Lu

2024Nature Communications21 citationsDOIOpen Access PDF

Abstract

Quasi-phase matching (QPM) is a technique extensively utilized in nonlinear optics for enhancing the efficiency and stability of frequency conversion processes. However, the conventional QPM relies on periodically poled ferroelectric crystals, which are limited in availability. The 3R phase of molybdenum disulfide (3R-MoS2), a transition metal dichalcogenide (TMDc) with the broken inversion symmetry, stands out as a promising candidate for QPM, enabling efficient nonlinear process. Here, we experimentally demonstrate the QPM at nanoscale, utilizing van der Waals stacking of 3R-MoS2 layers with specific orientation to realize second harmonic generation (SHG) enhancement beyond the non QPM limit. We have also demonstrated enhanced spontaneous parametric down-conversion (SPDC) via QPM of 3R-MoS2 homo-structure, enabling more efficient generation of entangled photon pairs. The tunable capacity of 3R-MoS2 van der Waals stacking provides a platform for tuning phase-matching condition. This technique opens interesting possibilities for potential applications in nonlinear process and quantum technology. Quasi-phase matching (QPM) is a well-known technique to improve the efficiency of frequency conversion processes in 3D nonlinear optical materials. Here, the authors report the implementation of nanoscale QPM in 2D 3R-stacked twisted MoS2, showing enhanced second harmonic generation and spontaneous parametric down-conversion.

Topics & Concepts

StackingMaterials sciencevan der Waals forceSecond-harmonic generationNonlinear opticsEnergy conversion efficiencyQuasi-phase-matchingOptoelectronicsHigh harmonic generationNonlinear systemPhase (matter)Point reflectionTopology (electrical circuits)OpticsPhysicsCondensed matter physicsLaserQuantum mechanicsMoleculeCombinatoricsNuclear magnetic resonanceMathematicsPhotorefractive and Nonlinear OpticsAdvanced Fiber Laser TechnologiesSolid State Laser Technologies
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