Result with impact on practice detail

Progress in developement of software for FRaScan HFEPR spectrometer

ŠEDIVÝ, M.; SOJKA, A.; LAGUTA, O.

Original Title

Progress in developement of software for FRaScan HFEPR spectrometer

English Title

Progress in developement of software for FRaScan HFEPR spectrometer

Type

Audiovisual work

Original Abstract

A frequency rapid-scan is a novel method that will be (along other methods) implemented into high field electron paramagnetic resonance (HFEPR) spectrometer, that is currently developed at CEITEC BUT. The spectrometer is composed of various instruments in order to achieve required multi-functionality. All these instruments will be controlled in one complex, but still user-friendly software solution. Software architecture was design to accomplish parallel execution, interactive user interface and control of peripheral instruments simultaneously. It takes in account a possibility of future upgrade for another instrument and functionalities. First step is to implement a magnetic domain HFEPR functionality. Later a frequency domain HFEPR, the rapid-scan and an electrically detected magnetic resonance. Moreover, the software will be able to process measured data into so-called EPR maps. Combination of all these functionalities of the software with hardware capabilities of developed spectrometer, will result in powerful tool in a field of magnetic resonance research.

English abstract

A frequency rapid-scan is a novel method that will be (along other methods) implemented into high field electron paramagnetic resonance (HFEPR) spectrometer, that is currently developed at CEITEC BUT. The spectrometer is composed of various instruments in order to achieve required multi-functionality. All these instruments will be controlled in one complex, but still user-friendly software solution. Software architecture was design to accomplish parallel execution, interactive user interface and control of peripheral instruments simultaneously. It takes in account a possibility of future upgrade for another instrument and functionalities. First step is to implement a magnetic domain HFEPR functionality. Later a frequency domain HFEPR, the rapid-scan and an electrically detected magnetic resonance. Moreover, the software will be able to process measured data into so-called EPR maps. Combination of all these functionalities of the software with hardware capabilities of developed spectrometer, will result in powerful tool in a field of magnetic resonance research.

Keywords

Frequency rapid-scan; electron paramagnetic resonance; electron spin resonance; EPR; ESR; modular software architecture; remotely controled instrument.

Key words in English

Frequency rapid-scan; electron paramagnetic resonance; electron spin resonance; EPR; ESR; modular software architecture; remotely controled instrument.

Authors

ŠEDIVÝ, M.; SOJKA, A.; LAGUTA, O.

RIV year

2020

Released

03.06.2019

Location

Masłońskie, Polsko

Book

2 nd annual conference of the Magneto-Optical and THz Spectroscopy Research Group

Pages from

7

Pages to

7

Pages count

1

BibTex

@misc{BUT157234,
  author="Matúš {Šedivý} and Antonín {Sojka} and Oleksii {Laguta}",
  title="Progress in developement of software for FRaScan HFEPR spectrometer",
  booktitle="2 nd annual conference of the Magneto-Optical and THz Spectroscopy Research  Group",
  year="2019",
  pages="7--7",
  address="Masłońskie, Polsko",
  note="Audiovisual work"
}