Nanotechnology Now

Our NanoNews Digest Sponsors
Heifer International

Wikipedia Affiliate Button

Home > News > Researchers Confirm Strong Magneto-Optical Resonance in Graphene

July 24th, 2019

Researchers Confirm Strong Magneto-Optical Resonance in Graphene

Abstract:
The interaction between graphene and light suggests that graphene could be used to control infrared (IR) and terahertz (THz) waves. Researchers from the University of Geneva (UNIGE) and the University of Manchester have demonstrated an efficient way to control IR and THz waves using graphene, in a study that confirms a 2006 theory predicting that graphene could be used in a magnetic field to absorb THz and IR light on demand and control the direction of the circular polarization.

Source:
photonics.com

Bookmark:
Delicious Digg Newsvine Google Yahoo Reddit Magnoliacom Furl Facebook

Related News Press

News and information

A step ahead in the race toward ultrafast imaging of single particles April 9th, 2020

House cleaning on the nanoscale: FAU scientists develop method for cleaning surfaces at the nanoscale April 8th, 2020

A twist connecting magnetism and electronic-band topology: Combined optical and torque measurements establish the microscopic mechanism linking magnetism and electronic-band topology in a Dirac material April 7th, 2020

Graphene/ Graphite

House cleaning on the nanoscale: FAU scientists develop method for cleaning surfaces at the nanoscale April 8th, 2020

A twist connecting magnetism and electronic-band topology: Combined optical and torque measurements establish the microscopic mechanism linking magnetism and electronic-band topology in a Dirac material April 7th, 2020

Possible Futures

A step ahead in the race toward ultrafast imaging of single particles April 9th, 2020

House cleaning on the nanoscale: FAU scientists develop method for cleaning surfaces at the nanoscale April 8th, 2020

A twist connecting magnetism and electronic-band topology: Combined optical and torque measurements establish the microscopic mechanism linking magnetism and electronic-band topology in a Dirac material April 7th, 2020

New measurements reveal evidence of elusive particles in a newly-discovered superconductor: Material may be natural home to quasiparticle hiding for decades April 3rd, 2020

Optical computing/Photonic computing

A combined optical transmitter and receiver: Bidirectional optical signal transmission between two identical devices using perovskite diodes April 3rd, 2020

Light in the tunnel March 26th, 2020

Heterostructure and Q-factor engineering for low-threshold and persistent nanowire lasing March 22nd, 2020

Armored with plastic 'hair' and silica, new perovskite nanocrystals show more durability November 29th, 2019

Discoveries

A step ahead in the race toward ultrafast imaging of single particles April 9th, 2020

House cleaning on the nanoscale: FAU scientists develop method for cleaning surfaces at the nanoscale April 8th, 2020

A twist connecting magnetism and electronic-band topology: Combined optical and torque measurements establish the microscopic mechanism linking magnetism and electronic-band topology in a Dirac material April 7th, 2020

New measurements reveal evidence of elusive particles in a newly-discovered superconductor: Material may be natural home to quasiparticle hiding for decades April 3rd, 2020

Announcements

A step ahead in the race toward ultrafast imaging of single particles April 9th, 2020

House cleaning on the nanoscale: FAU scientists develop method for cleaning surfaces at the nanoscale April 8th, 2020

A twist connecting magnetism and electronic-band topology: Combined optical and torque measurements establish the microscopic mechanism linking magnetism and electronic-band topology in a Dirac material April 7th, 2020

New measurements reveal evidence of elusive particles in a newly-discovered superconductor: Material may be natural home to quasiparticle hiding for decades April 3rd, 2020

Interviews/Book Reviews/Essays/Reports/Podcasts/Journals/White papers/Posters

A step ahead in the race toward ultrafast imaging of single particles April 9th, 2020

A twist connecting magnetism and electronic-band topology: Combined optical and torque measurements establish the microscopic mechanism linking magnetism and electronic-band topology in a Dirac material April 7th, 2020

New measurements reveal evidence of elusive particles in a newly-discovered superconductor: Material may be natural home to quasiparticle hiding for decades April 3rd, 2020

3D reconstructions of individual nanoparticles: Liquid phase electron microscopy illuminates 3D atomic structures of platinum nanoparticles, advancing full control of nanoengineering April 3rd, 2020

Photonics/Optics/Lasers

A combined optical transmitter and receiver: Bidirectional optical signal transmission between two identical devices using perovskite diodes April 3rd, 2020

Light in the tunnel March 26th, 2020

Heterostructure and Q-factor engineering for low-threshold and persistent nanowire lasing March 22nd, 2020

On-chip single-mode CdS nanowire laser March 21st, 2020

NanoNews-Digest
The latest news from around the world, FREE



  Premium Products
NanoNews-Custom
Only the news you want to read!
 Learn More
NanoStrategies
Full-service, expert consulting
 Learn More











ASP
Nanotechnology Now Featured Books




NNN

The Hunger Project