3-dimensional photonic band structure

E.Yablonovitch; T.J.Gmitter; K.M.LeungR.D.MeadeA.M.RappeK.D.BrommerJ.D.Joannopoulos

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3-dimensional photonic band structure

机译：三维光子能带结构

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Three-dimensionally periodic dielectric structures, (photonic crystals), possessing a forbidden gap for electromagnetic wave propagation, (a photonic bandgap), are now known. If the perfect 3-dimensional periodicity is broken by a local defect, then local electromagnetic modes can occur within the forbidden bandgap. The addition of extra dielectric material locally, inside the photonic crystal, produces ‘donor’ modes. Conversely, the local removal of dielectric material from the photonic crystal produces ‘acceptor’ modes. It will now be possible to make high-Q electromagnetic cavities of volume ∼ 1 cubic wavelength, for short wavelengths at which metallic cavities are useless. These new dielectric cavities can cover the range all the way from millimeter waves, down to ultraviolet wa

机译：三维周期性介电结构（光子晶体）具有电磁波传播的禁止间隙（光子带隙），现在是已知的。如果完美的三维周期性被局部缺陷破坏，则局部电磁模式可能会在禁止的带隙内发生。在光子晶体内部局部添加额外的介电材料，产生“供体”模式。相反，从光子晶体中局部去除介电材料会产生“受体”模式。现在，对于金属空腔无用的短波长，现在可以制造体积∼1立方波长的高Q电磁腔。这些新的介电腔可以覆盖从毫米波到紫外线的范围。

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来源
《optical and quantum electronics》 |1992年第2期|S273-S283|共页
作者
E.Yablonovitch; T.J.Gmitter; K.M.LeungR.D.MeadeA.M.RappeK.D.BrommerJ.D.Joannopoulos;
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作者单位

Navesink Research Center;

Polytechnic University Brooklyn;

MIT;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种英语
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3-dimensional photonic band structure

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