Brewster-coupling-based thin film filter design for wide-angle high-efficiency phosphor emission

Xin Wen; Alan Lenef; Madis Raukas; David Klotzkin

doi:10.1364/AO.486404

Brewster-coupling-based thin film filter design for wide-angle high-efficiency phosphor emission

Xin Wen
, Alan Lenef
, Madis Raukas
, David Klotzkin

Electrical and Computer Eng

Binghamton University

Research output: Contribution to journal › Article › peer-review

Abstract

In this paper, we propose a bandpass filter design method for laser activated remote phosphor (LARP) usage. This design uses the Brewster angle as the passband instead of a wavelength passband. Two advantages are found with this design. First, the transmittance at the Brewster angle is naturally 100%, which is optimal. Second, the stop band reflectance with a wide angular range is better compared to the dichroic filter in a LED-phosphor model. We design two optical thin film filter samples to enhance the extraction efficiency of YAG:Ce phosphor with the same design criteria, objective function, and optimization algorithm. With 50-layer designing, the optical losses for LARP are 23.7% and for LED-phosphor are 26.0%.

Original language	English
Pages (from-to)	3557-3560
Number of pages	4
Journal	Applied Optics
Volume	62
Issue number	14
DOIs	https://doi.org/10.1364/AO.486404
State	Published - May 10 2023

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title = "Brewster-coupling-based thin film filter design for wide-angle high-efficiency phosphor emission",

abstract = "In this paper, we propose a bandpass filter design method for laser activated remote phosphor (LARP) usage. This design uses the Brewster angle as the passband instead of a wavelength passband. Two advantages are found with this design. First, the transmittance at the Brewster angle is naturally 100\%, which is optimal. Second, the stop band reflectance with a wide angular range is better compared to the dichroic filter in a LED-phosphor model. We design two optical thin film filter samples to enhance the extraction efficiency of YAG:Ce phosphor with the same design criteria, objective function, and optimization algorithm. With 50-layer designing, the optical losses for LARP are 23.7\% and for LED-phosphor are 26.0\%.",

author = "Xin Wen and Alan Lenef and Madis Raukas and David Klotzkin",

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AU - Wen, Xin

AU - Lenef, Alan

AU - Raukas, Madis

AU - Klotzkin, David

PY - 2023/5/10

Y1 - 2023/5/10

N2 - In this paper, we propose a bandpass filter design method for laser activated remote phosphor (LARP) usage. This design uses the Brewster angle as the passband instead of a wavelength passband. Two advantages are found with this design. First, the transmittance at the Brewster angle is naturally 100%, which is optimal. Second, the stop band reflectance with a wide angular range is better compared to the dichroic filter in a LED-phosphor model. We design two optical thin film filter samples to enhance the extraction efficiency of YAG:Ce phosphor with the same design criteria, objective function, and optimization algorithm. With 50-layer designing, the optical losses for LARP are 23.7% and for LED-phosphor are 26.0%.

AB - In this paper, we propose a bandpass filter design method for laser activated remote phosphor (LARP) usage. This design uses the Brewster angle as the passband instead of a wavelength passband. Two advantages are found with this design. First, the transmittance at the Brewster angle is naturally 100%, which is optimal. Second, the stop band reflectance with a wide angular range is better compared to the dichroic filter in a LED-phosphor model. We design two optical thin film filter samples to enhance the extraction efficiency of YAG:Ce phosphor with the same design criteria, objective function, and optimization algorithm. With 50-layer designing, the optical losses for LARP are 23.7% and for LED-phosphor are 26.0%.

UR - https://www.scopus.com/pages/publications/85159860109

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DO - 10.1364/AO.486404

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VL - 62

SP - 3557

EP - 3560

JO - Applied Optics

JF - Applied Optics

IS - 14

ER -

Brewster-coupling-based thin film filter design for wide-angle high-efficiency phosphor emission

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