Laser Lighting — the Potential Successor of LED Technology

November 9, 2016 

One thing that characterizes technology is constant evolution, and lighting fixtures are no exception. New technologies constantly emerge, offering performance superior to the products they replace, eventually displacing them from the market.

At the moment, LED lighting represents the state of the art in the lighting industry. However, according to Dr. Shuji Nakamura, laser diodes are the future of lighting and will eventually displace LED. It is important to note that Dr. Nakamura is a Nobel Prize winner and the inventor of blue LED, the technology that made the current LED revolution possible! In fact, he has already co-founded a company called SoraaLaser, dedicated to laser lighting.

Laser technology is still experimental, but it offers great potential and impressive performance characteristics:

  • In theory, laser lamps can achieve an efficacy in the range of 200 lumens per watt, which is twice the average efficiency of most commercial LED fixtures (100 lm/W). This means that, once the technology is commercial, a retrofit from LED to laser lighting could offer savings of around 50%, not to mention the impressive savings that will result when replacing less efficient technologies such as HID and fluorescent lighting.
  • A very high colour rendering index is achievable with LED, in the range of 0.95 or above. While there are LED fixtures capable of offering this CRI, they do so at the expense of efficacy. Many high-CRI LED lamps go below 70 lm/W, which is comparable to the efficiency of fluorescent lighting.
  • According to Dr. Nakamura, laser diodes allow the current density to be increased by 10 to 20 times compared to that of LEDs. This results in a very compact lamp that allows a high degree of optimization in terms of optical design.
  • The high current density tolerated by laser diodes would also lead to a reduction in costs, simply because much less material is needed.

All of these features are possible thanks to the implementation of gallium nitride (GaN) laser diodes, which generate a violet lighting output. The basic principle for producing white light is the same used for blue LEDs: the diode is covered with a phosphor coating designed to interact with the photons passing by in such a way that the resulting colour is white.

While off-the-shelf laser fixtures are not yet available, there are some examples of commercial applications. For instance, some high-end BMW and Audi vehicles have laser headlights: they have seven times more range than conventional headlights, and more than twice the range of LED headlights. The BMW i8, for example, uses laser headlights developed by Osram, one of the largest brands in the lighting industry.

Lighting designers will soon a have access to a new technology to work with, which will provide even greater savings than LED. Laser lighting could be particularly attractive for architects and interior designers, since its high colour rendering index will ensure the colours of objects and surfaces are represented faithfully.

This article was first published online as a LightPro blog: https://blog.light.pro/laser-lighting-the-potential-successor-of-led-technology/.

 

Related Articles


Changing Scene


Design

  • Liteline: Splitsville in Hamilton, Ontario – Lighting Project Highlight

    Liteline: Splitsville in Hamilton, Ontario – Lighting Project Highlight

    At Splitsville in Hamilton, Ontario, PEGA is suspended across all 34 lanes, creating a cohesive lighting design throughout the space. Each fixture is paired with OnCloud, enabling independent control and wireless connectivity. OnCloud is a natural fit for this bowling alley. From daily operations to league nights, special events, and private parties, lighting scenes and… Read More…

  • CDm2 LIGHTWORKS: The Real Work of Value Engineering – A Collaborative Approach

    CDm2 LIGHTWORKS: The Real Work of Value Engineering – A Collaborative Approach

    It’s a situation most lighting designers have experienced: a project you spent months designing comes back with a request to review and accept a value engineering package. You’ve seen it time and time again, a package of substitutions with a carrot of cost savings and a deadline. There’s no true value engineering offered, only substitution… Read More…


New Products

  • BeLuce: HAZ-X Q – Hazardous Location LED High Bay

    BeLuce: HAZ-X Q – Hazardous Location LED High Bay

    The HAZ-X Q Series LED High Bay is UL 844 certified for Class I, Division 2, Class II, Division 1 & 2, Class III hazardous locations and is engineered for reliable performance in harsh industrial environments where moisture, dust, corrosion, and vibration may be present. Available in Q1 (20W to 100W) and Q2 (20W to 240W) configurations,… Read More…

  • ABB Emergi-Lite: ECPHR Series – Reach New Heights in Emergency Egress Lighting

    ABB Emergi-Lite: ECPHR Series – Reach New Heights in Emergency Egress Lighting

    The ECPHR Series is a steel egress luminaire designed to work seamlessly with Emergi-Lite mini-inverters, engineered to deliver enhanced performance in high-ceiling environments. Designed with patented LED technology and precision optics, it delivers focused, asymmetric illumination with exceptional uniformity – ensuring a clear path of egress while improving safety and reducing system cost. Read More…