Measurement of absolute distance employing a tunable CW dye laser

K. Ikezawa; K. Isozaki; E. Ogita; T. Ueda

doi:10.1109/19.126627

Measurement of absolute distance employing a tunable CW dye laser

K. Ikezawa^*, K. Isozaki, E. Ogita, T. Ueda

^*この研究の対応する著者

研究成果: Article › 査読

8 被引用数 (Scopus)

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With a tunable CW dye laser oscillating in a single longitudinal mode, measurement of an absolute distance is demonstrated with the method of excess fractions. Five beams which have different wavelengths are emitted sequentially from the dye laser, and the interferometric phae is measured for each wavelength. An interferometric order number for a wavelength can be calculated from values of wavelengths and phases. Then a precise value of length is obtained. This method is similar to measuring distances by using group delay as used in VLBI and microwave ranging. The measured accuracy was within ±8.8 nm between 0 and 10 mm (at an absolute distance of 0.1-10.1 mm). This accuracy on the order of nanometers over a range of several millimeters is regarded as the best yet reported.

本文言語	English
ページ（範囲）	36-39
ページ数	4
ジャーナル	IEEE Transactions on Instrumentation and Measurement
巻	41
号	1
DOI	https://doi.org/10.1109/19.126627
出版ステータス	Published - 1992 2月

ASJC Scopus subject areas

電子工学および電気工学
器械工学

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T1 - Measurement of absolute distance employing a tunable CW dye laser

AU - Ikezawa, K.

AU - Isozaki, K.

AU - Ogita, E.

AU - Ueda, T.

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N2 - With a tunable CW dye laser oscillating in a single longitudinal mode, measurement of an absolute distance is demonstrated with the method of excess fractions. Five beams which have different wavelengths are emitted sequentially from the dye laser, and the interferometric phae is measured for each wavelength. An interferometric order number for a wavelength can be calculated from values of wavelengths and phases. Then a precise value of length is obtained. This method is similar to measuring distances by using group delay as used in VLBI and microwave ranging. The measured accuracy was within ±8.8 nm between 0 and 10 mm (at an absolute distance of 0.1-10.1 mm). This accuracy on the order of nanometers over a range of several millimeters is regarded as the best yet reported.

AB - With a tunable CW dye laser oscillating in a single longitudinal mode, measurement of an absolute distance is demonstrated with the method of excess fractions. Five beams which have different wavelengths are emitted sequentially from the dye laser, and the interferometric phae is measured for each wavelength. An interferometric order number for a wavelength can be calculated from values of wavelengths and phases. Then a precise value of length is obtained. This method is similar to measuring distances by using group delay as used in VLBI and microwave ranging. The measured accuracy was within ±8.8 nm between 0 and 10 mm (at an absolute distance of 0.1-10.1 mm). This accuracy on the order of nanometers over a range of several millimeters is regarded as the best yet reported.

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Measurement of absolute distance employing a tunable CW dye laser

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