Ultrafast Four‐Wave Mixing Phase‐Matched by Transient Nonlinear Phase Modulation in a MAPbBr3 Single Crystal

IF 9.8 1区 物理与天体物理 Q1 OPTICS
Jiahui Ren, Xinping Zhang
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Abstract

A degenerated four‐wave‐mixing (FWM) process in single‐crystal (CH3NH3)PbBr3 (MAPbBr3) is reported, where 150‐fs laser pulses at 1.33 µm are employed as the pump. Two pump photons interact with a single crystal, producing another two photons with higher and lower energies, respectively. One of the FWM‐generation sidebands is tuned from ∼1.23 to 1.21 µm and the other from ∼1.43 to 1.48 µm for the center wavelength, as the pump fluence is increased from 2.6 to 11.69 mJ cm−2. The self‐phase modulation induced by the strong pump pulses through the optical Kerr effect is responsible for the tuning dynamics. Transient spectroscopy not only verifies the FWM scheme for the interacting waves but also reveals the interference dynamics between the FWM‐generated sidebands and the probe pulse. In particular, the angular dependence of the FWM generation supplies direct evidence for the phase‐matching geometry. Using experimental data, a nonlinear refractive index coefficient of 1.19 × 10−14 cm2 W−1 at 1.33 µm for single‐crystal MAPbBr3 is determined.

Abstract Image

通过 MAPbBr3 单晶中的瞬态非线性相位调制实现相位匹配的超快四波混频
报告采用 1.33 µm 的 150 fs 激光脉冲作为泵浦,在单晶 (CH3NH3)PbBr3 (MAPbBr3) 中实现了退化的四波混合 (FWM) 过程。两个泵浦光子与单晶体相互作用,分别产生另外两个能量较高和较低的光子。当泵浦能量从 2.6 mJ cm-2 增加到 11.69 mJ cm-2 时,其中一个全息调制产生的边带从 ∼ 1.23 µm 调整到 1.21 µm,另一个边带从 ∼ 1.43 µm 调整到中心波长的 1.48 µm。强泵浦脉冲通过光学克尔效应引起的自相位调制是调谐动态的原因。瞬态光谱不仅验证了相互作用波的 FWM 方案,还揭示了 FWM 产生的边带与探测脉冲之间的干涉动态。特别是,FWM 产生的角度依赖性为相位匹配几何提供了直接证据。利用实验数据,确定了单晶 MAPbBr3 在 1.33 µm 波长下的非线性折射率系数为 1.19 × 10-14 cm2 W-1。
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来源期刊
CiteScore
14.20
自引率
5.50%
发文量
314
审稿时长
2 months
期刊介绍: Laser & Photonics Reviews is a reputable journal that publishes high-quality Reviews, original Research Articles, and Perspectives in the field of photonics and optics. It covers both theoretical and experimental aspects, including recent groundbreaking research, specific advancements, and innovative applications. As evidence of its impact and recognition, Laser & Photonics Reviews boasts a remarkable 2022 Impact Factor of 11.0, according to the Journal Citation Reports from Clarivate Analytics (2023). Moreover, it holds impressive rankings in the InCites Journal Citation Reports: in 2021, it was ranked 6th out of 101 in the field of Optics, 15th out of 161 in Applied Physics, and 12th out of 69 in Condensed Matter Physics. The journal uses the ISSN numbers 1863-8880 for print and 1863-8899 for online publications.
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