Xiaoyu X. Li scite author profile

Xiaoyu X. Li

4Publications

22Citation Statements Received

27Citation Statements Given

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Affiliations

National Institute of Standards and Technology, National Institute of Standards

Publications

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Nonlinearity measurements of high-power laser detectors at NIST

Li¹,

Scott²,

Shao³

et al. 2004

J. Res. Natl. Inst. Stand. Technol.

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We briefly explain the fundamentals of detector nonlinearity applicable to both electrical and optical nonlinearity measurements. We specifically discuss the attenuation method for optical nonlinearity measurement that the NIST system is based upon, and we review the possible sources of nonlinearity inherent to thermal detectors used with high-power lasers. We also describe, in detail, the NIST nonlinearity measurement system, in which detector responsivity can be measured at wavelengths of 1.06 µm and 10.6 µm, over a power range from 1 W to 1000 W. We present the data processing method used and show measurement results depicting both positive and negative nonlinear behavior. The expanded uncertainty of a typical NIST high-power laser detector calibration including nonlinearity characterization is about 1.3 %.

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Reflective attenuator for high-energy laser measurements

Lehman

Livigni

et al. 2008

Appl. Opt.

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A high-energy laser attenuator in the range of 250 mJ (20 ns pulse width, 10 Hz repetition rate, 1064 nm wavelength) is described. The optical elements that constitute the attenuator are mirrors with relatively low reflectance, oriented at a 45 degrees angle of incidence. By combining three pairs of mirrors, the incoming radiation is collinear and has the same polarization orientation as the exit. We present damage testing and polarization-dependent reflectance measurements for 1064 nm laser light at 45 degrees angle of incidence for molybdenum, silicon carbide, and copper mirrors. A six element, 74 times (18 dB) attenuator is presented as an example.

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Optical-Fiber Power Meter Comparison between NIST and KRISS

Vayshenker

Haars

et al. 2012

J. RES. NATL. INST. STAN.

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We describe the results of a comparison of reference standards between the National Institute of Standards and Technology (NIST-USA) and Korea Research Institute of Standards and Science (KRISS-R.O. Korea) for optical fiber-based power measurements at wavelengths of 1302 nm and 1546 nm. We compare the laboratories’ reference standards by means of a temperature-controlled optical trap detector. Measurement results showed the largest difference of less than 2.5 parts in 103, which is within the combined standard (k=1) uncertainty for the two laboratories’ reference standards.

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Reflective Optical Chopper Used in NIST High-Power Laser Measurements

Li¹,

Scott²,

Cromer³

et al. 2008

J. Res. Natl. Inst. Stand. Technol.

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For the past ten years, NIST has used high-reflectivity, optical choppers as beamsplitters and attenuators when calibrating the absolute responsivity and response linearity of detectors used with high-power CW lasers. The chopper-based technique has several advantages over the use of wedge-shaped transparent materials (usually crystals) often used as beam splitters in this type of measurement system. We describe the design, operation and calibration of these choppers. A comparison between choppers and transparent wedge beampslitters is also discussed.

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Xiaoyu X. Li

Nonlinearity measurements of high-power laser detectors at NIST

Reflective attenuator for high-energy laser measurements

Optical-Fiber Power Meter Comparison between NIST and KRISS

Reflective Optical Chopper Used in NIST High-Power Laser Measurements

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