AI Article Synopsis
- Semiconductor lasers are efficient, compact, and versatile, used in various fields like defense, medicine, and aerospace, with ongoing research focused on improving their output power and beam quality.
- The introduction of parity-time (PT) symmetry mode-control allows for selective modulation of laser modes, enhancing their spectral characteristics and overall performance.
- The study outlines the principles of PT symmetry, different modulation methods, and summarizes advancements in PT-symmetric lasers, while also discussing future research directions.
Article Abstract
Semiconductor lasers, characterized by their high efficiency, small size, low weight, rich wavelength options, and direct electrical drive, have found widespread application in many fields, including military defense, medical aesthetics, industrial processing, and aerospace. The mode characteristics of lasers directly affect their output performance, including output power, beam quality, and spectral linewidth. Therefore, semiconductor lasers with high output power and beam quality are at the forefront of international research in semiconductor laser science. The novel parity-time (PT) symmetry mode-control method provides the ability to selectively modulate longitudinal modes to improve the spectral characteristics of lasers. Recently, it has gathered much attention for transverse modulation, enabling the output of fundamental transverse modes and improving the beam quality of lasers. This study begins with the basic principles of PT symmetry and provides a detailed introduction to the technical solutions and recent developments in single-mode semiconductor lasers based on PT symmetry. We categorize the different modulation methods, analyze their structures, and highlight their performance characteristics. Finally, this paper summarizes the research progress in PT-symmetric lasers and provides prospects for future development.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11013715 | PMC |
| http://dx.doi.org/10.3390/nano14070571 | DOI Listing |
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