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EeroQ Validates CMOS-Controlled Electron Shuttling on Superfluid Helium for All-to-All Qubit Routing

Schematic rendering of EeroQ’s Wonder Lake chip stack.

Quantum hardware developer EeroQ has published peer-reviewed experimental results demonstrating the selective, two-dimensional transport of electrons on superfluid helium using a commercial silicon control architecture. Published in Physical Review Applied (“Selective shuttling of electrons on helium using a CMOS control platform“), the research validates the structural integrity of the company’s mobile spin-qubit transport layer. By moving electron packets across an atomically smooth liquid helium film condensed over a standard microelectronics chip, the system achieves lossless, long-distance charge transport—bypassing the material impurities and charge traps that typically cause phase decoherence and signal degradation in solid-state quantum architectures.