T.H. Martin, C.G. Malte, Advances in small lasers. Nat. Photon. 8 , 908–918 (2014)Hill MT, Gather MC. Advances in small lasers. Nat Photon 2014;8:908-18.Hill, M. T. & Gather, M. C. Advances in small lasers. Nature Photonics 8, 908-918 (2014)....
Advances in small lasers 来自 国家科技图书文献中心 喜欢 0 阅读量: 382 作者:MT Hill,MC Gather 摘要: Small lasers have dimensions or modes sizes close to or smaller than the wavelength of emitted light. In recent years there has been significant progress towards reducing the size and improving ...
The performance of ultrafast semiconductor disk lasers has rapidly advanced in recent decades. The strong interest from industry for inexpensive, compact, and reliable ultrafast laser sources in the picosecond and femtosecond domains has driven this technology toward commercial products. Frequency metrology ...
Laser-induced forward transfer (LIFT) is a noncontact direct-write technique that enables the deposition of small volumes of material into user-defined, high-resolution patterns with a wide range of structural and functional materials. This chapter reviews the LIFT technique from its original developme...
In recent years, there have been numerous reviews on the application of perovskite materials. For example, Liu et al. reviewed low-dimensional metal halide perovskites. With excellent photoelectric and mechanical properties, perovskites have potential applications in solar cells, lasers, and waveguides ...
and microneedles. Medical needle instruments are delicate and long, resulting in small surgical wounds but also easy to deform. Typical applications include tissue acquisition by-fine needle biopsy [25], drug injection into subcutaneous tissue [26], and repairing soft tissue with suture delivery devic...
They designed the laser to exploit two key advantages of microfluidic dye lasers. First, because such a small volume of dye is employed, one dye can easily replace another so that multiple wavelength ranges can be accessed. And second, because the output wavelength depends on dye concentration,...
perovskite has been employed as the active material in various fields, including solar cells [1,2,3], light-emitting diodes (LEDs) [4,5,6,7], photodetectors [8,9,10,11,12], lasers [13,14], memristors [15], artificial synapses devices [16,17], pressure-induced emission [18,19] and...
In this regard, perovskite materials may take the leading role. In recent years, LEDs have become a most explored topic, owing to their various applications in photodetectors, solar cells, lasers, and so on. Noticeably, they exhibit significant characteristics in developing LEDs. The luminous ...
Small volumes of tissue are vaporized, with the formation of cavitation bubbles made up of carbon dioxide and water. This gas is dissipated in the tissue, forming a cleavage plane.1 The prototype of the first corneal surgery with FS laser was developed in US in the early 1990s.2 In 2001,...