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Mechanical Quantum Networks of Spin Qubits with Long Range Connectivity
1. Technology Overview The invention introduces a groundbreaking method for developing mechanical quantum networks of spin qubits with long-range connectivity using Wannier-Stark ladders of diamond Lamb wave resonators (LWRs). This innovative approach leverages the ultralow damping rates and excellent optical and spin properties of diamond LWRs to...
Published: 1/8/2026   |   Inventor(s): Hailin Wang, Philip Andrango
Keywords(s):  
Category(s): Communications, Nanoscience & Microtechnologies, Physical Science, Information Technology
3D-printed Ion Trap
1. Technology Overview The invention introduces a 3D-printed ion trap designed for quantum computing applications. This innovative device leverages additive 3D printing of glass structures to create ion traps that can be integrated onto wafers containing micro-fabricated elements. The technology offers significant potential for improving trapping...
Published: 1/7/2026   |   Inventor(s): David Allcock, Tim Gardner, Morgan Brown, Alexander Quinn
Keywords(s):  
Category(s): Materials Science, Information Technology, Nanoscience & Microtechnologies, Physical Science
All-Optical Multiplexer and De-multiplexer for Temporal Modes of Electromagnetic Radiation using Nonlinear Optical Cavities and Shaped Laser Pulses
1. Technology Overview The invention focuses on an all-optical multiplexer and de-multiplexer for temporal modes of electromagnetic radiation using nonlinear optical cavities and shaped laser pulses. This device selectively shifts the carrier frequency of temporal-mode components of electromagnetic pulses using nonlinear wave mixing in a microcavity...
Published: 1/7/2026   |   Inventor(s): Michael Raymer, Dileep Reddy
Keywords(s): Science
Category(s): Communications, Engineering, Information Technology, Physical Science
Phononic Quantum Networks of Solid-state Spins Using Phononic Crystal Waveguides for One-sided Coupling
1. Technology Overview The invention focuses on phononic quantum networks of solid-state spins using phononic crystal waveguides for one-sided coupling. This system aims to realize a quantum network of solid-state spins using mechanical resonators and phononic crystal waveguides, serving as a platform for developing large-scale spin-based quantum...
Published: 1/8/2026   |   Inventor(s): Hailin Wang, Mark Kuzyk
Keywords(s): Science
Category(s): Engineering, Information Technology, Nanoscience & Microtechnologies, Materials Science, Physical Science
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