Multiplication of spectral lines generated by two-color stimulated raman effect

Nobuyuki Takeyasu; Cheng Huang Lin; Totaro Imasaka

doi:10.1007/BF02932065

Multiplication of spectral lines generated by two-color stimulated raman effect

Nobuyuki Takeyasu, Cheng Huang Lin, Totaro Imasaka

化學系

研究成果: 雜誌貢獻 › 文章 › 同行評審

1 引文斯高帕斯（Scopus）

摘要

A dye laser emitting at four different frequencies separated by 293.5 (=587/2) cm^-1 is made by inserting an etalon in the resonator cavity of the laser. This laser beam is focused into molecular hydrogen (rotational Raman shift frequency, 587 cm^-1) to generate a multicolor laser beam consisting of more than 10 rotational lines in the vicinity of the fundamental lines by four-wave Raman mixing. Such rotational lines also occur in the vicinity of the vibrational Raman lines. Thus more than 25 emission lines appear simultaneously. This approach is useful to multiply the line density, i.e., the emission lines within a specified wavelength region.

原文	英語
頁（從 - 到）	549-551
頁數	3
期刊	Optical Review
卷	3
發行號	6
DOIs	https://doi.org/10.1007/BF02932065
出版狀態	已發佈 - 1996 一月 1

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1007/BF02932065

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title = "Multiplication of spectral lines generated by two-color stimulated raman effect",

abstract = "A dye laser emitting at four different frequencies separated by 293.5 (=587/2) cm-1 is made by inserting an etalon in the resonator cavity of the laser. This laser beam is focused into molecular hydrogen (rotational Raman shift frequency, 587 cm-1) to generate a multicolor laser beam consisting of more than 10 rotational lines in the vicinity of the fundamental lines by four-wave Raman mixing. Such rotational lines also occur in the vicinity of the vibrational Raman lines. Thus more than 25 emission lines appear simultaneously. This approach is useful to multiply the line density, i.e., the emission lines within a specified wavelength region.",

keywords = "Etalon, Four-wave raman mixing, Hydrogen, Multicolor laser beam, Multifrequency dye laser",

author = "Nobuyuki Takeyasu and Lin, {Cheng Huang} and Totaro Imasaka",

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AU - Imasaka, Totaro

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N2 - A dye laser emitting at four different frequencies separated by 293.5 (=587/2) cm-1 is made by inserting an etalon in the resonator cavity of the laser. This laser beam is focused into molecular hydrogen (rotational Raman shift frequency, 587 cm-1) to generate a multicolor laser beam consisting of more than 10 rotational lines in the vicinity of the fundamental lines by four-wave Raman mixing. Such rotational lines also occur in the vicinity of the vibrational Raman lines. Thus more than 25 emission lines appear simultaneously. This approach is useful to multiply the line density, i.e., the emission lines within a specified wavelength region.

AB - A dye laser emitting at four different frequencies separated by 293.5 (=587/2) cm-1 is made by inserting an etalon in the resonator cavity of the laser. This laser beam is focused into molecular hydrogen (rotational Raman shift frequency, 587 cm-1) to generate a multicolor laser beam consisting of more than 10 rotational lines in the vicinity of the fundamental lines by four-wave Raman mixing. Such rotational lines also occur in the vicinity of the vibrational Raman lines. Thus more than 25 emission lines appear simultaneously. This approach is useful to multiply the line density, i.e., the emission lines within a specified wavelength region.

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KW - Four-wave raman mixing

KW - Hydrogen

KW - Multicolor laser beam

KW - Multifrequency dye laser

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