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APS DAMOP 2025
| Event Name | APS DAMOP 2025 |
|---|---|
| Dates | June 17-19, 2025 |
| Venue | Oregon Convention Center | Portland, OR | Booth #30 |
| Official site | APS DAMOP 2025 |
Uncover how Hamamatsu Photonics’ cutting-edge solutions are enabling scalable quantum computing systems and advancing the frontier of quantum sensing!
At the edge of innovation for over 70 years, Hamamatsu Photonics has been at the forefront of photonic innovation, continuously developing groundbreaking technologies. As a global leader, we are proud to be the parent company of Energetiq Technology, NKT Photonics, and Fairchild Imaging, bringing you an even broader range of advanced solutions.
On display at booth #30
- Breakthrough in quantum sensing: Unveiling our optically pumped magnetometer (OPM), capable of detecting ultra-low magnetic fields opening new possibilities such as imaging the human brain without the use of cryogenic technology. This is Hamamatsu’s first commercially available device in our journey into advancing vapor cell-based quantum sensing.
- Introducing the ORCA-Quest 2 qCMOS camera: Featuring enhanced quantum efficiency (QE) for UV wavelengths, this powerful upgrade is ideal for trapped ion quantum computing applications. Come stop by the booth to ask us how the ORCA-Quest 2 can integrate with ARTIQ for synchronized quantum control and imaging.
- Quantum technology solutions: Explore our innovations in trapped ion and neutral atom quantum computing. We’ll be showcasing our state-of-the-art detection and imaging solutions, including photomultiplier tubes (PMTs), single photon detectors (SPADs), and qCMOS cameras, as well as our modulation and beam steering technologies, such as LCOS-SLM and MEMS mirrors.
- Precision laser systems by NKT Photonics: Discover the new Koheras HARMONIK HP H69 laser— optimized for 689 and 698 nm with 10 W of output power. Tailored for strontium-based optical clocks and quantum computing experiments.
Let’s shape the quantum future—Together
Visit us at booth #30 to explore our latest quantum technologies, connect with our experts, and discover how Hamamatsu’s photonic solutions can enable your next breakthrough.
Case studies
Featured products:
The ORCA-Quest 2, the latest evolution in our qCMOS camera line, builds upon the excellence of its predecessor with enhanced performance. It features faster readout speeds in ultra-low-noise scan mode and increased sensitivity in the ultraviolet spectrum—ideal for detecting UV fluorescence from trapped ions. Ask us about our latest solution that integrates the ORCA-Quest 2 with ARTIQ for synchronized quantum control and imaging.
The fiber coupled SPAD module C16534-050GD is compact and suitable for integration in quantum devices and systems. Customizations include but not limited to gain adjustments and higher overvoltage which results in higher PDE and higher dark count rate (DCR) as a tradeoff.
Since the early development of trapped-ion quantum computers in the 1990s, our photomultiplier tubes (PMTs) have been a trusted solution for detecting faint ion fluorescence. The H10682 photon counting head is the gold standard for high-sensitivity, low-noise photon counting of Yb trapped ion fluorescence, offering both fiber-coupled and free-space options for seamless integration into quantum applications.
The 64-channel multianode PMT assembly H7546B series is an assembly that can detect fluorescence of multiple ions in a 64-channel matrix.
The LCOS-SLM is a reflective spatial light modulator that freely controls the phase of light with a liquid crystal. Controlling the phase (wavefront) with LCOS-SLM enables researchers to generate a highly efficient optical microtrap array to confine neutral atoms.
Our MPPC modules offer high gain (~10⁶), efficient 650nm photon detection for NV fluorescence, a wide dynamic range, and a superior signal-to-noise ratio for weak, high-speed signals. With an integrated amplifier and power supply, they provide a seamless plug-and-play solution.
Our SPAD modules offer high photon detection efficiency at 493nm for barium ion fluorescence, low dark count rates, and flexible free-space or fiber-coupled options—ideal for VIS trapped ion qubit detection and quantum networking. Customization is available to meet project needs.
Our unique micro-electro-mechanical systems (MEMS) technology enables electromagnetically driven mirrors with a wide optical deflection angle, high mirror reflectivity, and low power consumption. These advantages make MEMS mirrors a compelling solution for optical beam steering and quantum interconnect hardware in quantum computing applications.
The Koheras HARMONIK HP is our range of high power UV & VIS fiber lasers. The lasers are single-frequency, mode-hop free, and ultra-stable. They deliver high power and narrow linewidth light at the exact atomic transition you need for your quantum application.
An optically pumped magnetometer (OPM) is a highly sensitive device designed to measure magnetic fields with extraordinary precision, down to fT levels. A compact module operated at room temperature, our OPM has a low surface temperature of 40 deg. C. It can be customized to suite specific application needs.
Product launch is expected around mid-2025.
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