(formula presented)-doping effects on (formula presented) studied by (formula presented) nuclear magnetic resonance

K. S. Kim, E. R. Park, C. H. Lee, D. K. Oh, Cheol Eui Lee, N. S. Dalal, R. Fu

Research output: Contribution to journalArticle

Abstract

Undoped and (formula presented)-doped (formula presented) (KTP) systems were studied by means of (formula presented) nuclear-magnetic-resonance measurements. The high-resolution (formula presented) isotropic-chemical-shift measurements were employed as a new probe in addition to the laboratory and rotating frame spin-lattice relaxation-time measurements. As a result, two phase-transitional behaviors ascribed to the changes in the dominant charge carriers were well characterized. Furthermore, it was found that the (formula presented) doping of the KTP system results in significant shifts in the transition temperatures.

Original languageEnglish
JournalPhysical Review B - Condensed Matter and Materials Physics
Volume64
Issue number13
DOIs
Publication statusPublished - 2001 Jan 1

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Magnetic resonance measurement
Spin-lattice relaxation
Chemical shift
Time measurement
Charge carriers
Relaxation time
Superconducting transition temperature
Doping (additives)
Nuclear magnetic resonance
nuclear magnetic resonance
spin-lattice relaxation
chemical equilibrium
charge carriers
relaxation time
transition temperature
time measurement
probes
shift
high resolution

ASJC Scopus subject areas

  • Electronic, Optical and Magnetic Materials
  • Condensed Matter Physics

Cite this

(formula presented)-doping effects on (formula presented) studied by (formula presented) nuclear magnetic resonance. / Kim, K. S.; Park, E. R.; Lee, C. H.; Oh, D. K.; Lee, Cheol Eui; Dalal, N. S.; Fu, R.

In: Physical Review B - Condensed Matter and Materials Physics, Vol. 64, No. 13, 01.01.2001.

Research output: Contribution to journalArticle

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AU - Kim, K. S.

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AU - Lee, Cheol Eui

AU - Dalal, N. S.

AU - Fu, R.

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AB - Undoped and (formula presented)-doped (formula presented) (KTP) systems were studied by means of (formula presented) nuclear-magnetic-resonance measurements. The high-resolution (formula presented) isotropic-chemical-shift measurements were employed as a new probe in addition to the laboratory and rotating frame spin-lattice relaxation-time measurements. As a result, two phase-transitional behaviors ascribed to the changes in the dominant charge carriers were well characterized. Furthermore, it was found that the (formula presented) doping of the KTP system results in significant shifts in the transition temperatures.

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