REPORTS & PUBLICATIONS

ORCA Computing Demonstrates Scalable Quantum Memory

We demonstrate cavity-enhanced ORCA memory achieving order-of-magnitude power reduction and compact footprint - unlocking scalable, high-efficiency photonic quantum computers.

NEWS

Benchmarking by ORCA and Toyota Motor Show that Hybrid Quantum–Classical AI can Substantially Reduce Energy Consumption Today

This collaboration demonstrates the practical and scalable potential of hybrid quantum–classical machine learning. The work between ORCA and Toyota Motor now lays the foundation for larger-scale experiments.

NEWS

Nonlinear Photonic Architecture for Fault-tolerant Quantum Computing

By introducing nonlinearities into photonic architectures, ORCA is unlocking a practical route to scalable, fault-tolerant quantum computing.

ORCA Computing and EPFL Researchers Push the Boundaries of Quantum Photonic Circuit Training for Hybrid Quantum Algorithms

ORCA Computing and EPFL researchers develop a groundbreaking approach for training photonic circuits in hybrid quantum/classical algorithms.

Academic Paper: The Travelling Salesman Problem

Daniel Goldsmith, Senior Quantum Computing Technologist, and Joe Day-Evans, Quantum Computing Technologist at Digital Catapult, have authored a paper on the Travelling Salesman Problem.

Academic paper: Accelerating our path to fault-tolerance with a new suite of tools 

ORCA is developing a novel way to generate resource states for adaptable hardware.

Academic paper: Light in quantum computing and simulation, perspective

Prof. Ian Walmsley published a paper on photonic quantum simulation and computation.

Academic paper: ORCA research illuminates path to fault tolerance

ORCA's new research shows that fault-tolerant computers can be achieved with simpler resource states.

Academic paper: Zeeman optical pumping of 87Rb atoms in a hollow-core photonic crystal fiber

We outline experimental results supported by a theoretical model of single-beam optical pumping of 87Rb atoms within a hollow-core photonic crystal fiber.