This issue of high-speed optical beam formation was studied for more than four years by an international team of researchers, under the direction of a group at MIT. They have demonstrated a programmable, wireless device that could manipulate light and do so orders of magnitude more quickly than commercial systems, such as by focusing a beam in a particular direction or adjusting the light's intensity.
With the biggest effective area in its class and significantly increased heat resistance, Hamamatsu Photonics K.K. has created a new spatial light modulator (SLM).
Author Credits: Abhishek Verma, Hetal Singh
Report ID: 4981
Published Date: Jun 02, 2023
Report Format: PDF, PPT
Frequently Asked Questions (FAQ)
The major factor driving the growth of the market is the growing adoption of automotive, the rise in the installation of digital signage, and the use of SLMs in biomedical imaging.
The market size of spatial light modulators is anticipated to attain a CAGR of ~16% over the forecast period, i.e., 2023 â€“ 2035.
The major players in the market are Jenoptik AG, Massachusetts Institute of Technology, Holoeye Photonics AG, PerkinElmer Inc., and more.
The company profiles are selected based on the revenues generated from the product segment, the geographical presence of the company which determines the revenue generating capacity as well as the new products being launched into the market by the company.
The market is segmented by type, application, resolution, and by region.
The electrically addressed segment is anticipated to garner the largest market size by the end of 2035 and display significant growth opportunities.
Lack of awareness among users regarding spatial light modulators, lack of technical knowledge among researchers, and high cost of spatial light modulators are estimated to be the growth hindering factors for the market expansion.
The market in the Asia Pacific region is projected to hold the largest market share by the end of 2035 and provide more business opportunities in the future.