Prospects for 4-laser white-light sources

Soltic, Snjezana; Chalmers, Andrew N.

doi:10.1080/09500340.2018.1517904

Cited by 4 publications

(8 citation statements)

References 11 publications

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“…Table 4 summarizes the white light illumination performance of the experimentally implemented reflective cavity CM-LD and PC-LD white light sources in cool white (4000-5000 K) and daylight (5000-6000 K) color temperature ranges. In principle, LER of four lasers with yellow LD can be as high as 330 lm/W, 7,8 so the LEO could be as high as 200 lm/Wo with CRI >85 using our existing extended cavity prototype (with a light extraction efficiency of 𝜂 𝑒𝑥 ~60%). Using more perfect DBR reflectors in the interior, 𝜂 𝑒𝑥 ~80% could be achieved based on Table 3, and the LEO can potentially reach >260 lm/Wo.…”

Section: Discussionmentioning

confidence: 99%

“…4 Similar to LED lighting, the available architectures for LD-based light sources include phosphor conversion (PC) 5,6 and direct color-mixing (CM). 7,8 PC-LDs can achieve high color rendering index (CRI) and reduce the coherence-induced laser speckles by scattering the laser beam. 9,10 It has been applied to automobile lamplights, featuring 1000 times brightness with 30% energy saving compared to their LED counterparts.…”

Section: Introductionmentioning

confidence: 99%

“…CM-LD lighting can potentially surpass PC-LD and achieve a high luminous efficacy of radiation (LER) of 350 lm/W and high color performance (CRI ~ 85) by carefully choosing the constituent laser line spectra in Blue-Green-Yellow-Orange (BGYO) scheme. 7,8,12 Currently, the limited efficiency of green and yellow lasers are the bottleneck. On the other hand, the advances in high-efficiency lasers (particularly yellow/amber/orange LDs) and sophisticated design of optical, electronic and heat-sink systems may speed up the development of CM-LD white lighting.…”

Section: Introductionmentioning

confidence: 99%

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High-efficiency, low-speckle contrast white laser lighting via multi-stage scattering and photon recycling

Liu

Wang

Carver

et al. 2023

Preprint

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Lighting consumes > 10% of the global electricity. White laser lighting, utilizing either direct color mixing or phosphor-conversion, can potentially boost the efficiency well beyond existing light emitting diodes (LEDs) especially at high current density. Here we present a compact, universal packaging platform for both laser lighting schemes, which is simultaneously scalable to wavelength division multiplexing for visible light communication. Using commercially available laser diodes and optical components, low-speckle contrast ≤ 5% and uniform illumination is achieved by multi-stage scattering and photon recycling through a mixing rod and static diffusers in a truncated-pyramidal reflective cavity. We demonstrate a high luminous efficacy of 274 lm/Wo for phosphor-converted laser lighting and 150 lm/Wo for direct red-green-blue laser mixing, respectively, in reference to the input optical power. In the former case, the luminous efficacy achieved for practical lighting is even higher than most of the previous reports measured using integrating spheres. In the latter case of direct laser color mixing, to our best knowledge, this is the first time to achieve a luminous efficacy approaching their phosphor-conversion counterparts in a compact package applicable to practical lighting. With future improvement of blue laser diode efficiency and development of yellow/amber/orange laser diodes, we envision that this universal white laser package can potentially achieve a luminous efficacy > 275 lm/We in reference to the input electrical power, ~ 1.5x higher than state-of-the-art LED lighting and exceeding the target of 249 lm/We for 2035.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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High-efficiency, low-speckle contrast white laser lighting via multi-stage scattering and photon recycling

Liu

Wang

Carver

et al. 2023

Preprint

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“…Our investigations in this field [28,32] were inspired by the work of Neumann et al [33] who successfully demonstrated a white-light 4-laser mixture with acceptable colour properties expressed in terms of the CRI and CQS metrics. Our earlier paper [28] also used CRI and CQS as measures of colour rendition.…”

Section: Optimisation Of Laser Diode Mixtures Using Tm-30-15 (Ies R F )mentioning

confidence: 99%

“…Our purpose in [32] was to optimise similar mixtures of solid-state lasers, and to utilize the more up-to-date method of the IES colour fidelity index R f [15,16].…”

Section: Optimisation Of Laser Diode Mixtures Using Tm-30-15 (Ies R F )mentioning

confidence: 99%

Artificial Intelligence in Light-Source Design

Soltic¹,

Chalmers²

2019

Computer Architecture in Industrial, Biomechanical and Biomedical Engineering

Self Cite

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The advent of light-emitting diode (LED) light sources has led to a new freedom in the design of light-source spectra, and it is now possible to optimise for different source performance parameters, which is the principal aim of the authors' work. LEDs and lasers are real or potential light sources, and are inherently monochromatic, that is, narrow-band sources, with typical optical bandwidths in the range 20-40 nm (nanometres) for LEDs and 1-5 nm for diode lasers. Mixtures of three or more can be used to produce nominally white light of the type acceptable for general purpose lighting. It is a characteristic of all types of sources that there is a trade-off between good colour properties and high efficiencies, and the methods described here are directed towards an optimum combination of such parameters. This chapter will explain the use of differential evolution (DE) as a highly effective heuristic approach to optimisation, and proceeds to explain the structure and operation of a DE algorithm designed as an optimisation tool for such purposes.

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Evaluating tradeoffs between energy efficiency and color rendition

Royer¹

2019

OSA Continuum

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Prospects for 4-laser white-light sources

Cited by 4 publications

References 11 publications

High-efficiency, low-speckle contrast white laser lighting via multi-stage scattering and photon recycling

High-efficiency, low-speckle contrast white laser lighting via multi-stage scattering and photon recycling

Artificial Intelligence in Light-Source Design

Evaluating tradeoffs between energy efficiency and color rendition

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