Quantum Science Information | AZoQuantum.com

About
News
Articles
Directory
Equipment
Experts
Advertise
More...
Books
Journals
Videos
Contact
Newsletters
Search
Software

Books
Journals
Videos
Contact
Newsletters
Software
Search

Facebook
Twitter

Become a Member

Identifying Excitons in 2D Materials Could Help Develop Quantum Computers

Identifying Excitons in 2D Materials Could Help Develop Quantum Computers

A new study by researchers at the Institute of Materials Science of the University of Valencia (ICMUV) has been able to detect excitons—particles that cause the interaction between light and matter—trapped in 2D materials that develop moiré patterns, one of the major challenges in this field of research.

Featured Articles

Quantum Entanglement: How Interaction Happens without Contact

Quantum Entanglement: How Interaction Happens without Contact

By Robert Lea

How Graphene Quantum Dots can be Used to Treat Radioactive Industry Waste

How Graphene Quantum Dots can be Used to Treat Radioactive Industry Waste

By Andrew Messios

Ruling Out Dark Matter Decay

Ruling Out Dark Matter Decay

By Robert Lea

$Electron Diffraction: The Short Range Order of Amorphous Solids$

Electron Diffraction: The Short Range Order of Amorphous Solids

By Cvetelin Vasilev

Transmission Electron Microscopy - Seeing Deeper with Quantum Physics

Transmission Electron Microscopy - Seeing Deeper with Quantum Physics

By Robert Lea

An Overview of the Quantum Mechanics Behind Atomic Absorption

An Overview of the Quantum Mechanics Behind Atomic Absorption

By Ben Pilkington, MSt.

Recent News

Identifying Excitons in 2D Materials Could Help Develop Quantum Computers

Identifying Excitons in 2D Materials Could Help Develop Quantum Computers

$X-Ray Diffraction Instrument Developed for Argonne’s Advanced Photon Source$

X-Ray Diffraction Instrument Developed for Argonne’s Advanced Photon Source

QURECA Launches the First Quantum Training & Recruitment Platform

QURECA Launches the First Quantum Training & Recruitment Platform

From Qureca Ltd

ESO Telescope Detects Disappearance of Giant Star

ESO Telescope Detects Disappearance of Giant Star

Study Unravels Physical Mechanism Behind Lifshitz Transition in Dirac Semimetal

Study Unravels Physical Mechanism Behind Lifshitz Transition in Dirac Semimetal

Computer Simulation Used to Reproduce High-Pressure Plasma Confinement in LHDs

Computer Simulation Used to Reproduce High-Pressure Plasma Confinement in LHDs

Featured
equipment
Trending
stories

Using Indium Deposition for Superconducting Interconnects

Using Indium Deposition for Superconducting Interconnects

This product profile discusses using indium deposition for superconducting interconnects.

From Angstrom Engineering

IRTracer-100 FTIR Spectrophotometer with Improved Detector

IRTracer-100 FTIR Spectrophotometer with Improved Detector

The IRTracer-100 FTIR Spectrophotometer from Shimadzu has an improved interferometer and detector design.

From Shimadzu Scientific Instruments

1 ESO Telescope Detects Disappearance of Giant Star

2 Study Could Help Reach Critical Photon Number to Realize Quantum Supremacy

3 New Study Could Power Research on Quantum Teleportation of All Matter

4 Advances in Quantum Networking may Contribute to Future Battlefield Operations

Sponsored Content

The Preparation of Superconducting Qubits

From Zurich Instruments AG 1 Jul 2019

Satellites in Space are Mapping the Wind

22 Oct 2018

Applications of Nuclear Physics

16 Sep 2018

Other Sites from AZoNetwork

AZoM
AZoNano
AZoRobotics
AZoCleantech
AZoOptics
AZoBuild

AZoMining
AZoSensors
News Medical
Life Sciences

Useful Links

News
Articles
Directory
Equipment
Experts
Software
Books

Journals
Videos
Events
Companies
Universities
About
The Team

Search
Become a Member
Newsletters
Contact
Help/FAQs
Advertise
Terms & Conditions
Privacy & Cookie Policy
Update Your Privacy Preferences
Sitemap

back to top

Facebook
Twitter

AZoQuantum.com - An AZoNetwork Site

Owned and operated by AZoNetwork, © 2000-2020

We use cookies to enhance your experience. By continuing to browse this site you agree to our use of cookies. More info.

Accept
Cookie Settings