Quantum Nano

Symposium Scope & Objectives

This symposium will explore the latest advancements in quantum technologies, with a focus on quantum nanotechnologies and quantum systems that leverage nanofabrication. As quantum science continues to drive innovation in computing, sensing, materials, and communication, this session will bring together experts working at the intersection of quantum mechanics, nanotechnology, materials science, and device engineering. Discussions will highlight emerging breakthroughs, fabrication techniques, and challenges in realizing scalable and robust quantum systems for next-generation applications.

Key Topics include

Quantum Computing & Information Processing 

• Nanoscale qubit platforms (superconducting, trapped ions, semiconductors, etc.) 

• Quantum error correction and fault tolerance at the nanoscale 

• Hybrid quantum-classical computing approaches 

• Scalable fabrication of quantum processors 

Quantum Sensing & Metrology 

• Nanoscale quantum sensors for biomedical, environmental, and industrial applications 

• Atomically engineered defects and quantum emitters in solid-state systems 

• Super-resolution quantum imaging and spectroscopy 

• Novel metrology techniques enabled by quantum coherence 

Quantum Materials & Nanofabrication 

• Low-dimensional quantum materials (2D materials, topological insulators, etc.) 

• Nanofabrication techniques for quantum devices 

• Engineering coherence and entanglement in solid-state quantum systems 

• Hybrid quantum material interfaces and heterostructures 

Quantum Networks & Communication 

• Nanoscale quantum photonics and single-photon sources 

• Quantum memory and quantum repeater technologies 

• Secure quantum communication and cryptographic protocols 

• Integration of quantum networking with classical infrastructure 

Target Audience

This symposium will appeal to researchers, engineers, and industry professionals working in quantum science, nanotechnology, materials science, and device engineering. The session aims to foster interdisciplinary discussions on the latest advancements in quantum nanotechnologies and their real-world impact on computing, sensing, communication, and materials innovation.