We are independent & ad-supported. We may earn a commission for purchases made through our links.
Advertiser Disclosure
Our website is an independent, advertising-supported platform. We provide our content free of charge to our readers, and to keep it that way, we rely on revenue generated through advertisements and affiliate partnerships. This means that when you click on certain links on our site and make a purchase, we may earn a commission. Learn more.
How We Make Money
We sustain our operations through affiliate commissions and advertising. If you click on an affiliate link and make a purchase, we may receive a commission from the merchant at no additional cost to you. We also display advertisements on our website, which help generate revenue to support our work and keep our content free for readers. Our editorial team operates independently of our advertising and affiliate partnerships to ensure that our content remains unbiased and focused on providing you with the best information and recommendations based on thorough research and honest evaluations. To remain transparent, we’ve provided a list of our current affiliate partners here.

Our Promise to you

Founded in 2002, our company has been a trusted resource for readers seeking informative and engaging content. Our dedication to quality remains unwavering—and will never change. We follow a strict editorial policy, ensuring that our content is authored by highly qualified professionals and edited by subject matter experts. This guarantees that everything we publish is objective, accurate, and trustworthy.

Over the years, we've refined our approach to cover a wide range of topics, providing readers with reliable and practical advice to enhance their knowledge and skills. That's why millions of readers turn to us each year. Join us in celebrating the joy of learning, guided by standards you can trust.

What is a Hybrid Silicon Laser?

Michael Anissimov
Updated: May 21, 2024

A hybrid silicon laser is a new type of laser, developed in 2006 by Intel and the University of California Santa Barbara (UCSB). This laser is made from group III-V semiconductor materials (e.g. Gallium(III) arsenide, Indium(III) phosphide) of the same type used in mass-produced computer chips, as well as silicon. A hybrid silicon laser is distinct from the laser diodes we currently use in our computers and CD players, based on Indium Phosphide, which must be individually assembled and aligned for each unit, and cannot be mass-produced in the same way as computer chips.

Separate III-V semiconductor wafers must be used to fabricate current laser diodes. Hybrid silicon lasers are primarily made of silicon, and are fabricated on a silicon wafter, which we have extensive experience at mass-manufacturing thanks to photolithography and the computing revolution. Hybrid silicon lasers will greatly drop the cost of building a laser.

Although hybrid silicon lasers will also use indium phosphide to generate light, it does not use the chemical to route, detect, modulate, and amplify light, as in normal laser diodes, but instead uses silicon. Hybrid silicon lasers are a huge step towards the integration of optical systems with conventional computer chips, which could allow processing speeds and data transfer rates hundreds of times faster than the best we have today. These transfer rates would be on the terabit level rather than the gigabit or megabit level we see today.

Hybrid silicon lasers are part of a research programme called photonic computing, which wants to see computer chips use light in tangent with electrical impulses to process data. Light requires less energy per unit of data. Hybrid silicon lasers can be mass-produced on an industrial scale, with hundreds or more to a die. Numerous on-chip lasers would be required to make a computer primarily based on photonics. Another necessary step to true photonics would be the technology to literally stop light in a crystal, analogous to electron storage in current computer logic. Preliminary research has shown promising results in this direction.

All The Science is dedicated to providing accurate and trustworthy information. We carefully select reputable sources and employ a rigorous fact-checking process to maintain the highest standards. To learn more about our commitment to accuracy, read our editorial process.
Michael Anissimov
By Michael Anissimov
Michael Anissimov is a dedicated All The Science contributor and brings his expertise in paleontology, physics, biology, astronomy, chemistry, and futurism to his articles. An avid blogger, Michael is deeply passionate about stem cell research, regenerative medicine, and life extension therapies. His professional experience includes work with the Methuselah Foundation, Singularity Institute for Artificial Intelligence, and Lifeboat Foundation, further showcasing his commitment to scientific advancement.
Discussion Comments
By anon2988 — On Aug 04, 2007

How does the Hybrid silicon laser get electrically pumped ?

Michael Anissimov
Michael Anissimov
Michael Anissimov is a dedicated All The Science contributor and brings his expertise in paleontology, physics, biology...
Learn more
All The Science, in your inbox

Our latest articles, guides, and more, delivered daily.

All The Science, in your inbox

Our latest articles, guides, and more, delivered daily.