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In-booth talks
We’re thrilled to invite you to our in-booth talks at Photonics West! Join us for dynamic discussions and live insights from our experts as we explore advancements in photonics. These engaging sessions are designed to spark innovation and offer a closer look at how we’re shaping the future of technology across industries. Don’t miss this opportunity to connect, learn, and be inspired by the latest breakthroughs.
Photonic capabilities
Shaping the future with next generation photon counting devices for LiDAR, PET, quantum, and life sciences
January 20, 2026 @ 11:30 AM - 11:50 AM PST
Photon counting technologies are rapidly advancing, opening new possibilities in medical imaging, automotive sensing, and the life sciences. In this presentation, we will showcase Hamamatsu Photonics’ latest developments in single photon avalanche diodes (SPADs) and silicon photomultipliers (SiPMs). We will provide an overview of the current product portfolio, outline our development roadmap, and highlight upcoming innovations across these detector platforms. Finally, we will demonstrate how next generation SPAD and SiPM technologies are enabling high impact applications including PET imaging, automotive LiDAR, quantum computing, and particle characterization for life sciences and pharmaceutical research, and examine their expanding role in shaping the future of photon detection.
Presenter:
Terumasa Nagano is a Manager in the Solid State Division, 59th Department, at Hamamatsu Photonics K.K. He has dedicated nearly 20 years to the development of silicon photomultipliers (SiPMs) and single-photon avalanche diodes (SPADs). He currently leads efforts focused on the development and commercialization of SiPM and SPAD technologies for LiDAR applications. He earned his master’s degree in Engineering from Tohoku University in 2003.
Quantum
LCOS-SLM and quantum: Enabling today and empowering tomorrow
January 20, 2026 @ 2:00 PM - 2:20 PM PST
The Hamamatsu LCOS-SLM enables a range of quantum applications, including neutral atom trapping, optical tweezing, and quantum gate addressing. Its exceptional phase stability, high light utilization efficiency, and precise modulation fidelity make it ideal for manipulating light fields at the single-atom or photon level. These capabilities allow researchers to achieve greater control and scalability in advanced quantum experiments and systems.
Presenter:
Brandon Gorakhnauth is a Marketing Engineer at Hamamatsu, where he creates and executes the market strategy for additive manufacturing, nuclear fusion, and aerospace applications within the North American region. As an engineer by trade, he transitioned from business analytics to photonics engineering while working at Hamamatsu. Brandon draws upon his diverse range of experiences to drive an equally wide range of internal projects and external OEM markets at Hamamatsu.
NKT Photonics – Fiber laser solutions for quantum technologies
January 20, 2026 @ 2:30 PM - 2:50 PM PST
Learn how NKT Photonics’ fiber lasers and photonic crystal fibers are leading the way in enabling quantum technologies at the laboratory and commercial scale. From ultra-narrow linewidth systems for your atomic transition of choice to supercontinuum lasers for broadband characterization, we deliver solutions for innovators in the growing quantum community.
Presenter:
Corban Murphey bio coming soon.
System-level perspective on scalable trapped-ion and neutral-atom quantum computers
January 20, 2026 @ 3:00 PM - 3:20 PM PST
Quantum computers promise to tackle some of the toughest challenges, from accelerating drug discovery to developing better batteries. Realizing this potential requires scaling not only the number of qubits but also maintaining precision, managing overhead, and implementing effective error correction. Photonics plays a central role in this effort enabling gate operations, qubit readout, and system interconnects. This talk presents a system-level perspective on scaling trapped-ion and neutral-atom quantum computers, emphasizing the importance of system engineering in achieving fault-tolerant performance. Drawing on Hamamatsu’s expertise in advanced photonic components and system integration, it explores how system-level complexity can be harnessed to build scalable, high-performance quantum platforms.
Presenter:
Klea Dhimitri is an Applications Engineer at Hamamatsu Corporation, where she leads quantum-focused activities across North America and collaborates closely with cross-functional teams, including R&D groups in Japan. Her expertise includes advanced photodetectors and imaging technologies-PMTs, SPADs, MPPCs, and qCMOS camera-and their integration into cutting-edge quantum systems. Klea also facilitates Hamamatsu's strategic collaborations with leading researchers and innovation hubs to advance photonics in quantum applications. She holds a B.A. in Physics and Mathematics from CUNY Hunter College.
Lasers
Going nuclear: Fusion solutions at Hamamatsu
January 21, 2026 @ 11:00 AM - 11:20 AM PST
During this talk, we will discuss the business conditions in the United States that is creating positive pressure for Nuclear Fusion adoption. In addition, we will cover Hamamatsu’s developments in high power diode laser technologies for ICF/IFE, and Hamamatsu solutions for plasma monitoring, such as scintillators, photomultiplier tubes, and cameras.
Presenter:
Brandon Gorakhnauth is a Marketing Engineer at Hamamatsu, where he creates and executes the market strategy for additive manufacturing, nuclear fusion, and aerospace applications within the North American region. As an engineer by trade, he transitioned from business analytics to photonics engineering while working at Hamamatsu. Brandon draws upon his diverse range of experiences to drive an equally wide range of internal projects and external OEM markets at Hamamatsu.
Semiconductor inspection
HyperGauge : An innovative measurement method for measuring the entire wafer
January 21, 2026 @ 2:30 PM - 2:50 PM PST
The HyperGauge Thickness measurement system employs a spectroscopic interference method for precise film thickness measurement. Equipped with Hamamatsu’s patented wavelength detection technology, λ-Capture®*, and a high sensitive camera, it can measure the entire thickness of wafers up to 300 mm in diameter in as little as 5 seconds.
Compared to point sensor systems, it delivers dramatically faster acquisition of thickness distribution.
Presenter:
Masakazu Kawazu (photo and bio coming soon)
Infrared detection
Metabo-RAY: A novel Non-invasive solution for blood glucose and pressure estimation in wearables
January 21, 2026 @ 3:00 PM - 3:20 PM PST
Hamamatsu Photonics introduces a breakthrough in non-invasive health monitoring: a novel method for estimating blood glucose and blood pressure using phase shifts between oxyhemoglobin and deoxyhemoglobin signals. This technique repurposes standard photoplethysmography (PPG) data—already used in SpO₂ monitoring—eliminating the need for extra hardware or invasive sampling.
Powered by a patented algorithm, the solution enables seamless integration into wearables like smartwatches and rings, offering advanced wellness tracking with minimal design impact. This talk will cover the underlying science, algorithmic innovation, and integration strategies that could redefine personal health monitoring.
Presenter:
Keita Makita is a Product Manager at Hamamatsu Corporation in Bridgewater, New Jersey, specializing in photomultiplier tube (PMT) technologies used in radiation detection, mass spectrometry, and oil well logging. Hamamatsu Photonics has discovered a new physiological mechanism and established a novel algorithm that enables non-invasive blood glucose estimation using optical technology. He is currently leading marketing efforts to promote this groundbreaking innovation. He earned his bachelor's degree in Information Science from Hiroshima City University in 2007.
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