Photonics Insights is a peer-reviewed, Open Access, quarterly journal published by Chinese Laser Press.
Disseminates fundamental and applied research progress in optics and photonics. Topics include lasers, LEDs and other light sources; fiber optics and optical communications; imaging, detectors and sensors; novel materials and engineered structures…
Publishes research that seeks to uncover the underlying science and engineering in the fields of high energy density physics, high power lasers, advanced laser technology and applications and laser components.
Started in 2019, as a virtual review journal, it contains high-quality review articles from journals that published by Chinese Laser Press independently or along with its partners. The scope of Review of Optics covers the full area of optics and photonics and relevant interdisciplinary topics.
The International Journal of Extreme Manufacturing is a new multidisciplinary journal uniquely covering the areas related to extreme manufacturing. The journal is devoted to publishing original research of the highest quality and impact in the areas related to extreme manufacturing, ranging from fundamentals to process, metrology, conditions, environments, and system integration.
JIM is devoted to the publication of advances in the field of inorganic non-metallic materials, including achievement obtained at different stages, new processes and new techniques, in the form of peer-reviewed research papers, research letters and review articles.
Journal of Semiconductors (previously Chinese Journal of Semiconductors) is published by the Chinese Institute of Electronics with the Institute of Semiconductors of the Chinese Academy of Sciences, and hosted online by IOP Publishing.
Committed to the publication of original and impactful research and review papers that address extreme states of matter and radiation, and the associated science and technology that are employed to produce and diagnose these conditions in the laboratory.
OEE publishes research articles, letters and reviews, as well as special issues on hot topical research and cutting-edge research. OEE covers all aspects of optics and electronics not only in fundamental, engineering research, but also in applications with broad interest.
This is an academic journal sponsored by the Chinese Optical Society. The main contents it carries include the latest research achievements, the research front and progress in spectrum measurement of laser, infrared, Raman, vibration, ultraviolet, visible, emission, absorption, X-ray and fluorescence spectrum.
The mission of Ultrafast Science is to build a platform for ultrafast scientific research; present new theories, concepts, ideas, technologies and progress in this field; publish the latest research representing the forefront of the discipline and that of international concern; and promote academic exchange and development worldwide.
The image on the cover for Chinese Optics Letters Volume 19, Issue 11, summarizes the PAI techniques, imaging systems, and their biomedical applications in microrobots tracking in vitro and in vivo. From a robotic tracking perspective, some insight into the future of PAI technology in clinical applications is also provided.The image is based on original research by Dengfeng Li et al. presented in their paper "Review of photoacoustic imaging for microrobots tracking in vivo [Invited]", Chinese Optics Letters 19 (11), 111701 (2021).
The image on the cover for Photonics Research Volume 9, Issue 11, proposes a device that could be used for both display and visible light communication (VLC) applications. The semipolar blue μLED array fabricated in this study shows a negligible wavelength shift, indicating a significant reduction in the quantum confined Stark effect. The image is based on original research by Tingzhu Wu et al. presented in their paper "Highly stable full-color display device with VLC application potential using semipolar μLEDs and all-inorganic encapsulated perovskite nanocrystal", Photonics Research 9 (11), 11002132 (2021).
The image on the cover for Advanced Photonics Volume 3 Issue 5 depicts a novel spintronic-metasurface terahertz emitter, developed by researchers from Fudan University. Composed of alternating magnetic heterostructures, the emitter allows efficient, flexible generation and manipulation of chiral terahertz waves. Terahertz radiation is generated by exciting the emitter with laser pulses under an oriented external magnetic field. Transverse anisotropic confinement of the laser-induced charge currents imposed by the metasurface structure leads to chiralterahertz-wave emission.The image is based on original research presented in the report by Changqin Liu, Shunjia Wang, Sheng Zhang, and Qingnan Cai, et al., “Active spintronic-metasurface terahertz emitters with tunable chirality,” Adv. Photonics 3(5), 056002 (2021), doi: 10.1117/1.AP.3.5.056002.
The image on the cover of High Power Laser Science and Engineering Volume 9, Issue 3, presents an all-optical scheme to generate a high-energy γ-photon beam with large beam angular momentum (BAM), small divergence, and high brilliance.The image is based on original research by Hao Zhang et al. presented in their paper "Efficient bright γ-ray vortex emission from a laser-illuminated light-fan-in-channel target", High Power Laser Science and Engineering 9 (3), 03000e43 (2021).