Detail publikace

Terahertz Magnetic Resonance Spectrometer for Electron Spin Dynamics Investigations

Originální název

Terahertz Magnetic Resonance Spectrometer for Electron Spin Dynamics Investigations

Anglický název

Terahertz Magnetic Resonance Spectrometer for Electron Spin Dynamics Investigations

Jazyk

en

Originální abstrakt

The aim of our work is to set up and develop a general purpose state-of-the-art broadband Electron Paramagnetic Resonance spectrometer based on THz rapid frequency scans (ERC Starting Grant THz-FRaScan-EPR) that will operate at frequencies between 80 GHz to 1100 GHz, at temperatures from 1.8 K to 300 K, and at magnetic fields up to 16 T. High spectral resolution is achieved by higher magnetic fields and higher frequencies, opening options to explore spin dynamics and other phenomena not previously accessible by current technologies.

Anglický abstrakt

The aim of our work is to set up and develop a general purpose state-of-the-art broadband Electron Paramagnetic Resonance spectrometer based on THz rapid frequency scans (ERC Starting Grant THz-FRaScan-EPR) that will operate at frequencies between 80 GHz to 1100 GHz, at temperatures from 1.8 K to 300 K, and at magnetic fields up to 16 T. High spectral resolution is achieved by higher magnetic fields and higher frequencies, opening options to explore spin dynamics and other phenomena not previously accessible by current technologies.

BibTex


@misc{BUT151812,
  author="Antonín {Sojka} and Petr {Neugebauer}",
  title="Terahertz Magnetic Resonance Spectrometer for Electron Spin Dynamics Investigations",
  annote="The aim of our work is to set up and develop a general purpose state-of-the-art broadband Electron Paramagnetic Resonance spectrometer based on THz rapid frequency scans (ERC Starting Grant THz-FRaScan-EPR) that will operate at frequencies between 80 GHz to 1100 GHz, at temperatures from 1.8 K to 300 K, and at magnetic fields up to 16 T. High spectral resolution is achieved by higher magnetic fields and higher frequencies, opening options to explore spin dynamics and other phenomena not previously accessible by current technologies.",
  address="VVM Publishing Ltd.",
  booktitle="Book of abstracts: V International School for Young Scientists on Magnetic Resonance and Magnetic Phenomena in Chemical and Biological Physics",
  chapter="151812",
  howpublished="print",
  institution="VVM Publishing Ltd.",
  year="2018",
  month="september",
  pages="229--229",
  publisher="VVM Publishing Ltd.",
  type="abstract"
}