Aeluma, Inc. (OTCQB:ALMU), a semiconductor company specializing in scalable, cost-effective technologies for LiDAR (light detection and ranging), communication, and sensing, announced today that it will host an exhibitor booth and deliver a presentation at the upcoming SPIE Photonics West in San Francisco, California.
SPIE Photonics West is the world's premier event for lasers, biomedical optics and biophotonic technologies, quantum, and optoelectronics. In 2023, more than 22,000 registered attendees joined the event, walked three exhibitions to see 1,400+ exhibitors, and watched more than 4,500 technical presentations at the conferences.
Aeluma will host an exhibitor booth at the SPIE Photonics West Exhibition at the Moscone Center during January 30 - February 1, 2024 at Booth 5143 where the company will showcase its scalable, large-diameter wafer technology.
Additionally, the conference invited Aeluma Director of Technology Matthew Dummer, Ph.D., to deliver a presentation titled "Large-Wafer Heterogeneously Integrated InGaAs Photodetector Sensors" at the Technical Conference on January 30, 2024 at 5:00-5:20 PM PST at the Moscone Center, Room 2008 (Level 2 West).
To meet with the Aeluma team at the event, attendees are encouraged to contact the company at info@aeluma.com.
Aeluma is working to commercialize its transformative semiconductor chip technology for a variety of markets including automotive LiDAR, mobile, defense and aerospace, AR/VR, AI, and communication. Aeluma has established a unique semiconductor manufacturing capability in Santa Barbara, California. With its proprietary technology that combines compound semiconductor nanomaterials with mass market semiconductor manufacturing, Aeluma is developing products that could offer high-performance and low-cost solutions for emerging markets. Key to Aeluma's disruptive technology is the ability to manufacture its compound semiconductor chips on up to 12-inch Silicon substrates, which can scale and be mass produced, thereby potentially reducing the cost of chips dramatically.