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Review. High pressure techniques used in the paramagnetic resonances

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The aim of this review-paper is to overview high pressure techniques used in the magnetic resonances in laboratories. In this review, we would like to show the techniques that lead yielding high pressure applicable in the paramagnetic resonances. We would like to draw your attention to the separation of the effects resulting from the pressure and effects from the temperature, thereby separate the volume phonon contribution. Our main intention is to show the impact of high pressure on the structure of matter, in particular on its fundamental level.
Rocznik
Strony
135--141
Opis fizyczny
Bibliogr. 14 poz., rys., fot., tab., wykr.
Twórcy
autor
  • Institute of Molecular Physics PAS, 17 M. Smoluchowski St., 60-179 Poznan, Poland
autor
  • Institute of Molecular Physics PAS, 17 M. Smoluchowski St., 60-179 Poznan, Poland
Bibliografia
  • [1] P.W. Bridgman, Physics of High Pressure, G. Bell and Sons, London, 1947.
  • [2] P.F McMillan, “Pressing on: the legacy of Percy W. Bridgman”, Nat. Mater. 4, 715-718 (2005).
  • [3] H.T. Hall, Chemistry at High Temperature and Pressure in High Temperature-A Tool for the Future, Stanford Research Institute, Menlo Park, 1956.
  • [4] G.J. Piermarini, S. Block, J.D. Barnett, and. R.A. Forman, “Calibration of the pressure dependence of the R 1 ruby fluorescence line to 195 kbar (19.5 GPa)”, J. Applied Physics 46, 2774 (1975).
  • [5] I.F. Bailey, Z. Kristallogr. 218, 84 (2003)
  • [6] N. Sakai and J.H. Pifer, “Electron paramagnetic resonance at high pressure using a diamond anvil cell,” Rev. Scl. lnstrum. 56 (5), 726-731 (1985).
  • [7] M. Krupski, R. Kaszyński, A. Krupska, and H. Gierszal, “Uniaxial stress system for electron paramagnetic resonance studies”, Rev. Sci. Instrum. 72, 4000-4001 (2001).
  • [8] M. Krupski, “Corrundum-filled resonator systems for highpressure and low-temperature electron paramagnetic resonance studies”, Rev. Sci. Instrum. 67 (8), 2894-2898 (1996).
  • [9] K. Akasaka and H. Yamada, “On-line cell high-pressure nuclear magnetic resonance technique: application to protein studies,” Methods Enzymol. 338, 134-158 (2001).
  • [10] M.W. Lassalle and K. Akasaka, “The use of high-pressure nuclear magnetic resonance to study protein folding”, in: Protein Folding Protocols, ed.Y. Bay, Hardcover, London, 2006.
  • [11] W. Kremer, M. Arnold, C.E. Munte, R. Hartl, M. Beck Erlach, J. Koehler, A. Meier, and H.R. Kalbitzer, “Pulsed pressure perturbations, an extra dimension in NMR spectroscopy of proteins”, J. Am. Chemical Society 133, 13646-13651 (2011).
  • [12] F. Iwase, K. Miyagawa, and K. Kanoda, “High-frequency nuclear quadrupole resonance apparatus for use in pressure cell”, Review of Scientific Instruments 83, 064704 (2012).
  • [13] A. Sienkiewicz, B. Vileno, S. Garaj, M. Jaworski, and L. Forro, “Dielectric resonator-based resonant structure for sensitive ESR measurements at high-hydrostatic pressures”, J. Magnetic Resonance 177, 278-290 (2005).
  • [14] J. Stankowski, S. Waplak, W. Jurga, and M. Krupski, “Sizedriven ferroelectric effects in TGS induced by high hydrostatic pressure”, J. Non-Crystalline Solids 356, 1305-1309 (2010).
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c678b0ec-ee13-4997-8384-12e920f52fb3
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