Xinzhou Su, Kaiheng Zou, Huibin Zhou, Hao Song, Yingning Wang, Ruoyu Zeng, Zile Jiang, Yuxiang Duan, Maxim Karpov, Tobias J Kippenberg, Moshe Tur, Demetrios N Christodoulides, Alan E Willner
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Spatiotemporal synthesis is achieved by introducing a 2-dimensional spectrum comprising both temporal and longitudinal wavenumbers associated with specific transverse Bessel-Gaussian fields. The resulting spectra are then employed to produce wave packets evolving in both time and axial distance - in full accord with the theoretical analysis. In this respect, various light degrees of freedom can be independently manipulated, such as intensity, polarization, and transverse spatial distribution (e.g., orbital angular momentum). Through a temporal-longitudinal frequency comb spectrum, we simulate the synthesis of the aforementioned wave packet properties, indicating a decrease in relative error compared to the desired phenomena as more spectral components are incorporated. 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引用次数: 0
摘要
一般来说,具有横向空间场和时间频谱相关性的时空波包可以产生独特的时空动态,从而实现对瞬时光特性的控制。然而,以往方法所产生的时空动态只能在给定的传播距离上表现出来,而不能在纵向上任意调整。在此,我们提出并展示了一类新的多功能明智合成波包,其时空演变可任意设计,在纵向传播路径上的各种预先设计的距离上发生。时空合成是通过引入一个二维频谱来实现的,该频谱由与特定横向贝塞尔-高斯场相关的时间和纵向波数组成。然后利用由此产生的频谱来产生在时间和轴向距离上都在演变的波包--完全符合理论分析。在这方面,各种光的自由度都可以独立操控,如强度、偏振和横向空间分布(如轨道角动量)。通过时间-纵向频率组合频谱,我们模拟了上述波包特性的合成,结果表明,随着更多频谱成分的加入,与理想现象相比,相对误差有所减小。此外,我们还在实验中展示了可定制的时空场,它携带时变和纵变轨道角动量,因此局部拓扑电荷在时域上每隔 1 ps 就会发生一次变化,在轴向上每隔 10 cm 就会发生一次变化。我们相信,我们的时空波包可以大大扩展对纵向时空动力学的探索。这种波包有可能在光物质相互作用和非线性光学中实现新的应用。
Temporally and longitudinally tailored dynamic space-time wave packets.
In general, space-time wave packets with correlations between transverse spatial fields and temporal frequency spectra can lead to unique spatiotemporal dynamics, thus enabling control of the instantaneous light properties. However, spatiotemporal dynamics generated in previous approaches manifest themselves at a given propagation distance yet are not arbitrarily tailored longitudinally. Here, we propose and demonstrate a new versatile class of judiciously synthesized wave packets whose spatiotemporal evolution can be arbitrarily engineered to take place at various predesigned distances along the longitudinal propagation path. Spatiotemporal synthesis is achieved by introducing a 2-dimensional spectrum comprising both temporal and longitudinal wavenumbers associated with specific transverse Bessel-Gaussian fields. The resulting spectra are then employed to produce wave packets evolving in both time and axial distance - in full accord with the theoretical analysis. In this respect, various light degrees of freedom can be independently manipulated, such as intensity, polarization, and transverse spatial distribution (e.g., orbital angular momentum). Through a temporal-longitudinal frequency comb spectrum, we simulate the synthesis of the aforementioned wave packet properties, indicating a decrease in relative error compared to the desired phenomena as more spectral components are incorporated. Additionally, we experimentally demonstrate tailorable spatiotemporal fields carrying time- and longitudinal-varying orbital angular momentum, such that the local topological charge evolves every ∼1 ps in the time domain and 10 cm axially. We believe our space-time wave packets can significantly expand the exploration of spatiotemporal dynamics in the longitudinal dimension. Such wave packets might potentially enable novel applications in light-matter interactions and nonlinear optics.
期刊介绍:
Optics Express is the all-electronic, open access journal for optics providing rapid publication for peer-reviewed articles that emphasize scientific and technology innovations in all aspects of optics and photonics.