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The Mössbauer spectrometer MsAa-4

Treść / Zawartość
Identyfikatory
Warianty tytułu
Konferencja
Proceedings of the 9th All - Polish Seminar on Mössbauer Spectroscopy OSSM'2012, 10-13 June 2012, Lublin - Kazimierz Dolny, Poland
Języki publikacji
EN
Abstrakty
EN
A description of the Mossbauer spectrometer MsAa-4 is given. The spectrometer has a modular design and it could be used as the gamma-ray spectrometer as well. It has almost entirely digital design to assure stability and repeatability. It is powered via the rechargeable battery to make it immune to the power failures. All settings are performed remotely over the Ethernet link used also to transfer data and spectrometer functions. External CAN bus could be used to attach auxiliary equipment. The status of the external equipment could be used to control spectrometer functions. Internal digital oscilloscope monitors vital functions of the spectrometer over the Ethernet link. Driving software operates under Microsoft Windows registered trademark systems and it is fully compatible with the Mosgraf-2009 data processing suite.
Czasopismo
Rocznik
Strony
17--21
Opis fizyczny
Bibliogr. 14 poz., rys.
Twórcy
autor
  • RENON, 15/15 Gliniana Str., 30-732 Kraków, Poland
Bibliografia
  • 1. Bara J, Hrynkiewicz AZ, Kulgawczuk DS, Lizurej H (1961) Apparatus for the investigation of the Mössbauer effect at room temperature. INP Report no. 154. Institute of Nuclear Physics, Kraków
  • 2. Błachowski A, Ruebenbauer K (2003) Possible application of the SGMR interferometry to look upon microscopic mechanisms of diffusion in single crystals of partly disordered alloys. Recent Research Developments in Physics: Transworld Research Network 4:333–359
  • 3. Błachowski A, Ruebenbauer K, Żukrowski J, Górnicki R (2008) Design of the MsAa-4 Mössbauer spectrometer. AIP Conf Proc 1070:162–169
  • 4. Błachowski A, Ruebenbauer K, Żukrowski J, Górnicki R (2008) Early design stage of the MsAa-4 Mössbauer spectrometer. Acta Phys Pol A 114:1707–1713
  • 5. Duraj Ł, Ruebenbauer K (2011) New graphical interface to the MOSGRAF suite. Acta Phys Pol A 119:75–77
  • 6. For availability of the equipment see: www.mossbauer.org/instruments.html
  • 7. Górnicki R, Błachowski A, Ruebenbauer K (2007) Mössbauer spectrometer MsAa-3. Nukleonika 52;Suppl 1:S7–S12
  • 8. Kwater M (1998) Laser calibration of the Mössbauer spectrometer velocity: Improvements in design. Hyperfine Interact 116:53–66
  • 9. Kwater M, Pochroń M, Ruebenbauer K, Terlecki T, Wdowik UD, Górnicki R (1995) GPIB controlled Mössbauer spectrometer – MsAa-1. Acta Phys Slovaca 45:81–84
  • 10. Kwater M, Ruebenbauer K, Wdowik UD (1998) Interferometric calibration of the Mössbauer spectrometer velocity. Mol Phys Rep 22:73–86
  • 11. Kwater M, Ruebenbauer K, Wdowik UD (1999) Calibration of the Mössbauer spectrometer velocity by optical methods. In: NATO Advanced Research Workshop Series, Kluwer Academic Publishers, MSMS’1998. Senec, Slovakia 1:407–412
  • 12. Ruebenbauer K, Duraj Ł (2009) www.elektron.up.krakow.pl/mosgraf-2009
  • 13. Ruebenbauer K, Wdowik UD, Kwater M (1996) Expansion of the Lamb-Mössbauer factor into semi-invariants. Physica B 229:49–54
  • 14. Żukrowski J, Błachowski A, Ruebenbauer K et al. (2008) Spin reorientation in the Er2–xFe14+2xSi3 single crystal studied by the 57Fe Mössbauer spectroscopy and magnetic measurements. J Appl Phys 103:123910 (8 pp)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUJ8-0025-0037
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