About This Webinar
Quantum computers promise transformative impact across industries, from pharmaceuticals to logistics. A critical challenge on the path to fault-tolerant systems is not only scaling the number of qubits but also preserving precision at scale. Photonics plays a central role in meeting this challenge. In platforms such as trapped ions and neutral atoms, photonic technologies enable qubit initialization, gate operations, state detection, and system interconnects.
This talk will explore why scaling demands a system-level approach moving beyond individual lasers, modulators, and detectors. Dhimitri highlights how photonics can serve as the backbone for scalable quantum platforms, bridging the gap between component performance and system-level architecture.
*** This presentation premiered during the
2025 Photonics Spectra Quantum Summit. For more information on Photonics Media conferences and summits, visit
events.photonics.com
About the 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. Dhimitri also facilitates Hamamatsu's strategic collaborations with leading researchers and innovation hubs to advance photonics in quantum applications. She holds a bachelors in physics and mathematics from CUNY Hunter College.