The Frontier and Speculative Sciences / Applied Technology and Engineering / Quantum Technologies / Quantum Computing Architectures / Quantum Hardware and Systems Engineering

Volume

The Quantum Bridge

Scaling Quantum Systems Through Interconnects and Transducers

The greatest hurdle to the quantum revolution isn't the qubit—it's the connection.

Strategic Objectives

• Master the physics of microwave-to-optical conversion for long-distance networking.

• Explore modular architectures that allow quantum computers to scale indefinitely.

• Understand the critical role of transducers in hybrid quantum information processing.

• Discover the engineering behind low-loss quantum state transfer across diverse platforms.

The Core Challenge

Quantum systems are currently trapped in isolated environments, limited by the physical boundaries of single refrigerators and vacuum chambers.

01

The Scaling Challenge

02

Foundations of Quantum Information

03

Physical Realizations of Qubits

04

Principles of Transduction

05

The Microwave Regime

06

Optical Quantum Communication

07

Microwave-to-Optical Mapping

08

Cavity Electro-Optics

09

Quantum Optomechanics

10

Piezoelectricity in Quantum Systems

11

Phononics and Acoustic Links

12

Magneto-Optics

13

Cryogenic Engineering for Interconnects

14

Signal Loss and Decoherence

15

Quantum Repeaters

16

Modularity in System Architecture

17

Integrated Photonics

18

Frequency Combs and Metrology

19

Hybrid Quantum Systems

20

The Quantum Internet

21

Future Frontiers

Explore Research Ecosystem

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