翻訳と辞書
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・ Coherence therapy
・ Coherence time
・ Coherence time (communications systems)
・ Coherency Granule
・ Coherent (operating system)
・ Coherent addition
・ Coherent anti-Stokes Raman spectroscopy
・ Coherent backscattering
・ Coherent control
・ Coherent diffraction imaging
・ Coherent duality
・ Coherent effects in semiconductor optics
・ Coherent electromagnetic radio tomography
・ Coherent file distribution protocol
・ Coherent information
Coherent perfect absorber
・ Coherent potential approximation
・ Coherent processing interval
・ Coherent ring
・ Coherent risk measure
・ Coherent sampling
・ Coherent set of characters
・ Coherent sheaf
・ Coherent Solutions
・ Coherent space
・ Coherent spectroscopy
・ Coherent states
・ Coherent states in mathematical physics
・ Coherent topology
・ Coherent turbulent structure


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Coherent perfect absorber : ウィキペディア英語版
Coherent perfect absorber
A coherent perfect absorber (CPA), or anti-laser, is a device which absorbs coherent light and converts it to some form of internal energy such as heat or electrical energy. It is the time reversed counterpart of a laser. The concept was first published in the July 26, 2010, issue of Physical Review Letters, by a team at Yale University led by theorist Douglas Stone In the September 9, 2010, issue of Physical Review A, Stefano Longhi of Politecnico di Milano showed how to combine a laser and an anti-laser in a single device.〔 ((Synopsis by Mark Saffman. ))〕 In February 2011 the team at Yale built the first working anti-laser. It is a two-channel CPA device which absorbs the output of two lasers, but only when the beams have the correct phases and amplitudes. The initial device was able to absorb 99.4 percent of all incoming light, but the team behind the invention believe it will be possible to increase this number to 99.999 percent.〔
Originally with the FP cavity, the optical CPA operates to a specific frequency and the wavelength thick material. In January 2012, thin film CPA has been proposed by utilizing the achromatic dispersion of metal, exhibiting the unparalleled bandwidth and thin profile advantages. This theoretical evaluation has been experimentally demonstrated in 2014.
==Design==
Identical lasers are fired into a cavity containing a silicon wafer, a light-absorbing material that acts as a "loss medium." The wafer aligns the light waves from the lasers so they become trapped, causing most of the photons to bounce back and forth until they are absorbed and transformed into heat. Furthermore, many of the remaining light waves are cancelled out by interfering with each other.〔〔 In contrast a normal laser uses a gain medium which amplifies light instead of absorbing it.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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