封面

封底

Light: Science & Applications

第 13 卷 第 6 期

「封面解读」极简计算光谱仪：一种极简计算光谱仪采用计算衍射分光架构设计，核心部件仅需一个任意形状微孔作为衍射色散器件，颠覆传统光谱测量设计范式，为新一代计算光谱测量及宽光谱计算成像技术提供了崭新的视角、方法和方向。

https://doi.org/10.1038/s41377-023-01355-4

「封底解读」蓝相：前景广阔的圆偏振发光材料：将量子点引入蓝相液晶弹性体中，成功制备了具有圆偏振发光的蓝相液晶弹性体。通过掺杂发射不同荧光的量子点实现了全彩色圆偏振发光。

https://doi.org/10.1038/s41377-024-01479-1

内 容 概 览

本期共发表20篇文章，包括：2 篇 News & Views、1篇 Light People、1 篇 Research Highlight、16 篇 Article。

新闻与观点

News & Views

01

Small and simple: next-generation miniaturized diffraction-based spectrometer with computational reconstruction algorithms（小巧简单：基于计算重建算法的新一代微型衍射光谱仪）

德国杜塞尔多夫大学Markus Suta

https://doi.org/10.1038/s41377-024-01449-7

「相关论文信息」Suta, M. Small and simple: next-generation miniaturized diffraction-based spectrometer with computational reconstruction algorithms.Light Sci Appl13, 106 (2024).

02

A head-mounted photoacoustic fiberscope for hemodynamic imaging in mobile mice（用于活动小鼠血流动力学成像的头戴式光声光纤内窥镜）

北京大学那帅等

https://doi.org/10.1038/s41377-024-01454-w

「相关论文信息」Zheng, X., Na, S. A head-mounted photoacoustic fiberscope for hemodynamic imaging in mobile mice.Light Sci Appl13, 107 (2024).

Light人物

Light People

01

Light People: Professor Fanglin Bao and his cover story

西湖大学王勣

https://doi.org/10.1038/s41377-024-01434-0

「相关论文信息」Wang, J. Light People: Professor Fanglin Bao and his cover story.Light Sci Appl13, 115 (2024).

研究亮点

Research Highlight

01

Highly-efficient VCSEL breaking the limit（突破极限的高效率垂直腔面发射激光器）

德国柏林工业大学Dieter Bimberg等

https://doi.org/10.1038/s41377-024-01455-9

「相关论文信息」Bimberg, D., Koyama, F. & Iga, K. Highly-efficient VCSEL breaking the limit.Light Sci Appl13, 123 (2024).

Article

原创论文

01

Ultra-simplified diffraction-based computational spectrometer

华中科技大学刘世元和谷洪刚等

https://doi.org/10.1038/s41377-023-01355-4

「相关论文信息」Chen, C., Gu, H. & Liu, S. Ultra-simplified diffraction-based computational spectrometer.Light Sci Appl13, 9 (2024).

02

Strong-field photoelectron holography in the subcycle limit

韩国浦项科技大学Dong Eon Kim与中国科学院精密测量科学与技术创新研究院赖炫扬等

https://doi.org/10.1038/s41377-024-01457-7

「相关论文信息」Khurelbaatar, T., Heo, J., Yu, S. et al. Strong-field photoelectron holography in the subcycle limit.Light Sci Appl13, 108 (2024).

03

Entangled photon pair generation in an integrated SiC platform（集成碳化硅平台上的纠缠光子对产生）

美国国家标准与技术研究院Lijun Ma，Anouar Rahmouni和卡内基梅隆大学Qing Li等

https://doi.org/10.1038/s41377-024-01443-z

「相关论文信息」Rahmouni, A., Wang, R., Li, J. et al. Entangled photon pair generation in an integrated SiC platform.Light Sci Appl13, 110 (2024).

04

Wireless sequential dual light delivery for programmed PDT in vivo（用于程序化体内光动力治疗的无线顺序双光递送系统）

香港城市大学张勇和新加坡国立大学Juwita Norasmara Bte Rahmat等

https://doi.org/10.1038/s41377-024-01437-x

「相关论文信息」Liu, J., Sun, B., Li, W. et al. Wireless sequential dual light delivery for programmed PDT in vivo.Light Sci Appl13, 113 (2024).

05

Omnidirectional color wavelength tuning of stretchable chiral liquid crystal elastomers

韩国浦项科技大学Su Seok Choi等

https://doi.org/10.1038/s41377-024-01470-w

「相关论文信息」Nam, S., Jung, W., Shin, J.H. et al. Omnidirectional color wavelength tuning of stretchable chiral liquid crystal elastomers.Light Sci Appl13, 114 (2024).

06

Ionizing terahertz waves with 260MV/cm from scalable optical rectification

美国马里兰大学Ki-Yong Kim和韩国光州科学技术院Chul Kang等

https://doi.org/10.1038/s41377-024-01462-w

「相关论文信息」Kim, H., Kang, C., Jang, D. et al. Ionizing terahertz waves with 260 MV/cm from scalable optical rectification.Light Sci Appl13, 118 (2024).

07

Mid-infrared computational temporal ghost imaging

四川大学梁厚昆、彭飞和芬兰坦佩雷大学Goëry Genty等

https://doi.org/10.1038/s41377-024-01426-0

「相关论文信息」Wu, H., Hu, B., Chen, L. et al. Mid-infrared computational temporal ghost imaging.Light Sci Appl13, 124 (2024).

08

Microsphere-assisted hyperspectral imaging: super-resolution, non-destructive metrology for semiconductor devices

韩国三星电子公司Kwangrak Kim等

https://doi.org/10.1038/s41377-024-01469-3

「相关论文信息」Park, J., Choi, Y., Kwon, S. et al. Microsphere-assisted hyperspectral imaging: super-resolution, non-destructive metrology for semiconductor devices.Light Sci Appl13, 122 (2024).

09

Quantum dot-enabled infrared hyperspectral imaging with single-pixel detection

山东大学孙宝清和高原等

https://doi.org/10.1038/s41377-024-01476-4

「相关论文信息」Meng, H., Gao, Y., Wang, X. et al. Quantum dot-enabled infrared hyperspectral imaging with single-pixel detection.Light Sci Appl13, 121 (2024).

10

All-optical complex field imaging using diffractive processors

美国加州大学洛杉矶分校Aydogan Ozcan等

https://doi.org/10.1038/s41377-024-01482-6

「相关论文信息」Li, J., Li, Y., Gan, T. et al. All-optical complex field imaging using diffractive processors.Light Sci Appl13, 120 (2024).

11

Ultra-high spatio-temporal resolution imaging with parallel acquisition-readout structured illumination microscopy (PAR-SIM)

北京大学席鹏和南方科技大学金大勇等

https://doi.org/10.1038/s41377-024-01464-8

「相关论文信息」Xu, X., Wang, W., Qiao, L. et al. Ultra-high spatio-temporal resolution imaging with parallel acquisition-readout structured illumination microscopy (PAR-SIM).Light Sci Appl13, 125 (2024).

12

Spatially selective p-type doping for constructing lateral WS₂ p-n homojunction via low-energy nitrogen ion implantation

武汉大学肖湘衡和李文庆等

https://doi.org/10.1038/s41377-024-01477-3

「相关论文信息」Kang, Y., Pei, Y., He, D. et al. Spatially selective p-type doping for constructing lateral WS₂ p-n homojunction via low-energy nitrogen ion implantation.Light Sci Appl13, 127 (2024).

13

Free-standing microscale photonic lantern spatial mode (De-)multiplexer fabricated using 3D nanoprinting

以色列耶路撒冷希伯来大学Yoav Dana等

https://doi.org/10.1038/s41377-024-01466-6

「相关论文信息」Dana, Y., Garcia, Y., Kukin, A. et al. Free-standing microscale photonic lantern spatial mode (De-)multiplexer fabricated using 3D nanoprinting.Light Sci Appl13, 126 (2024).

14

Precise mode control of laser-written waveguides for broadband, low-dispersion 3D integrated optics（用于宽带低色散三维集成光学的激光直写波导精确模式控制）

浙江大学邱建荣，之江实验室谭德志、马志军、陈智和宁波大学钟理京等

https://doi.org/10.1038/s41377-024-01473-7

「相关论文信息」Wang, Y., Zhong, L., Lau, K.Y. et al. Precise mode control of laser-written waveguides for broadband, low-dispersion 3D integrated optics.Light Sci Appl13, 130 (2024).

15

Deformable microlaser force sensing

德国科隆大学Marcel Schubert和英国圣安德鲁斯大学Malte C. Gather等

https://doi.org/10.1038/s41377-024-01471-9

「相关论文信息」Dalaka, E., Hill, J.S., Booth, J.H.H. et al. Deformable microlaser force sensing.Light Sci Appl13, 129 (2024).

16

When quantum dots meet blue phase liquid crystal elastomers: visualized full-color and mechanically-switchable circularly polarized luminescence

东南大学李全和北京化工大学郭金宝等

https://doi.org/10.1038/s41377-024-01479-1

「相关论文信息」Li, S., Tang, Y., Fan, Q. et al. When quantum dots meet blue phase liquid crystal elastomers: visualized full-color and mechanically-switchable circularly polarized luminescence.Light Sci Appl13, 140 (2024).