Absolute positioning by multi-wavelength interferometry referenced to the frequency comb of a femtosecond laser

Wang, Guochao; Jang, Yoon-Soo; Hyun, Sangwon; Chun, Byung Jae; Kang, Hyun Jay; Yan, Shuhua; Kim, Seungwoo; Kim, Young‐Jin

doi:10.1364/oe.23.009121

Cited by 69 publications

(31 citation statements)

References 32 publications

(37 reference statements)

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“…As a result, conventional schemes of multi-wavelength interferometers were not capable of achieving absolute distance measurements over several meters without losing the superb sub-wavelength measurement resolution of laser-based phase-measuring interferometers. Figure 3 shows the basic concept of multi-wavelength interferometry implemented by generating four wavelengths with reference to the frequency comb of a modelocked laser [49,50]. Each wavelength k i (i = 1,2,3,4) is phase-locked individually to its pre-assigned modes of the frequency comb, so the target distance L is given in terms of k i as L i = (k i /2n i )/(m i ?…”

Section: Comb-based Multi-wavelength Interferometermentioning

confidence: 99%

“…In recent years, in order to meet evergrowing industrial demands on the measurement precision and functionality, quit a few attempts have been made worldwide. Examples include synthetic wavelength interferometry [43][44][45], multi-wavelength interferometry [46][47][48][49][50], spectrally resolved interferometry [51][52][53][54], timeof-flight measurement [55][56][57][58][59] and dual-comb interferometry [60][61][62][63][64].…”

Section: Introductionmentioning

confidence: 99%

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Distance Measurements Using Mode-Locked Lasers: A Review

Jang

Kim

2018

Nanomanuf Metrol

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We present a progress review on the advance of distance measurements made at KAIST by making use of mode-locked lasers as the light source to meet ever-growing industrial demands on the measurement precision and functionality. Diverse principles exploited for the progress are described in this review with focus on four attributes: first, the optical spectrum of a mode-locked laser, distinctively called the frequency comb, permits multi-wavelength interferometry to be realized for absolute distance measurement up to several meters without losing the nanometer precision of well-established laser-based phase-measuring displacement measurement. Second, the frequency comb enables spectrally resolved interferometry for absolute distance measurement to be conducted with a nanometer resolution by Fourier transform analysis of the dispersive interference data captured using a spectrometer. Third, the mode-locked laser in the time domain appears as a train of ultrashort pulses, of which the time-of-flight is measured with a picosecond resolution by control of the pulse repetition rate with reference to the radio-frequency atomic clock. Fourth, the pulse-to-pulse cross-correlation occurring in the optical frequency domain is down-converted to the radio-frequency domain to achieve femtosecond pulse timing precision by means of dual-comb interference. All these principles based on unique spectral and temporal characteristics of ultrashort mode-locked lasers are anticipated to make contributions to the advance of nanotechnology particularly in manufacturing and metrology.

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Section: Comb-based Multi-wavelength Interferometermentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Distance Measurements Using Mode-Locked Lasers: A Review

Jang

Kim

2018

Nanomanuf Metrol

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“…In addition, the comb can be used for simultaneous generation of multiple arbitrary wavelengths; by phase-locking tunable laser diodes individually to selected optical modes within the comb11 or by filtering out several optical modes separately with power amplification by injection-locking12. This approach of comb-referenced wavelength generation offers excellent frequency stability and uncertainty, allowing for implementation of advanced techniques such as absolute distance measurement by multi-wavelength interferometry131415161718 and real-time compensation of the refractive index of air by two-colour interferometry1920.…”

mentioning

confidence: 99%

“…In fact, during the past decade, many attempts have been made to use the comb as the light source for long-distance measurements with various progressive principles; inter-mode synthetic wavelength interferometry212223, many-wavelength dispersive interferometry24252627, multi-wavelength interferometry131415161718, dual-comb frequency-down-conversion interferometry28293031, and optical cross-correlation time-of-flight measurement323334. These newly proposed methods proved effective in extending the non-ambiguity distance range by taking advantage of the comb’s unique spectral or temporal characteristics.…”

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confidence: 99%

“…In fact, the interferometer system was previously proposed in ref. 18 by the authors together with primary measurement results. In this study, with further experimental data obtained via more elaborate environment control, comprehensive analysis is made to validate the proposed interferometer system as a practical means of realizing the definition of the meter with an utmost level of uncertainty and stability.…”

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confidence: 99%

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Comb-referenced laser distance interferometer for industrial nanotechnology

Jang

Wang

Hyun

et al. 2016

Sci Rep

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A prototype laser distance interferometer is demonstrated by incorporating the frequency comb of a femtosecond laser for mass-production of optoelectronic devices such as flat panel displays and solar cell devices. This comb-referenced interferometer uses four different wavelengths simultaneously to enable absolute distance measurement with the capability of comprehensive evaluation of the measurement stability and uncertainty. The measurement result reveals that the stability reaches 3.4 nm for a 3.8 m distance at 1.0 s averaging, which further reduces to 0.57 nm at 100 s averaging with a fractional stability of 1.5 × 10−10. The uncertainty is estimated to be in a 10−8 level when distance is measured in air due to the inevitable ambiguity in estimating the refractive index, but it can be enhanced to a 10−10 level in vacuum.

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