Anomalous variation of second magnetization peak and onset field in overdoped single crystals

Y. Sun, Yung-Yuan Hsu, B. Lin, H. Luo, H. Ku

Research output: Contribution to journalArticle

24 Citations (Scopus)

Abstract

Anomalous c-axis isothermal magnetization results are reported for partial Pb-substituted (Formula presented) single crystals with overdoped superconducting transition (Formula presented) of 69 K and anisotropy parameter (Formula presented) Contrary to optimum-doped Bi-2212 crystals, both second magnetization peak (Formula presented) and onset field (Formula presented) exhibit strong and meaningful temperature dependence (150 G-2 kG for (Formula presented) and 160 G-5.2 kG for (Formula presented) in a much extended temperature range from 11 K up to 62 K (Formula presented) where they cross with the low-field irreversibility line (Formula presented) The theoretical fitting of the temperature variation indicates that (Formula presented) is related to the static-disorder induced transition from an ordered vortex quasilattice (or Bragg glass) to an entangled vortex glass state, and (Formula presented) seems to be related to the thermal-disorder induced vortex pancake decoupling transition. The (Formula presented) and (Formula presented) terminations at low and high temperature as well as relaxation are fully discussed.

Original languageEnglish
Pages (from-to)11301-11304
Number of pages4
JournalPhysical Review B - Condensed Matter and Materials Physics
Volume61
Issue number17
DOIs
Publication statusPublished - 2000 Jan 1

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Magnetization
Single crystals
magnetization
Vortex flow
single crystals
Glass
Temperature
Anisotropy
vortices
Crystals
disorders
glass
decoupling
temperature dependence
anisotropy
temperature

ASJC Scopus subject areas

  • Electronic, Optical and Magnetic Materials
  • Condensed Matter Physics

Cite this

Anomalous variation of second magnetization peak and onset field in overdoped single crystals. / Sun, Y.; Hsu, Yung-Yuan; Lin, B.; Luo, H.; Ku, H.

In: Physical Review B - Condensed Matter and Materials Physics, Vol. 61, No. 17, 01.01.2000, p. 11301-11304.

Research output: Contribution to journalArticle

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abstract = "Anomalous c-axis isothermal magnetization results are reported for partial Pb-substituted (Formula presented) single crystals with overdoped superconducting transition (Formula presented) of 69 K and anisotropy parameter (Formula presented) Contrary to optimum-doped Bi-2212 crystals, both second magnetization peak (Formula presented) and onset field (Formula presented) exhibit strong and meaningful temperature dependence (150 G-2 kG for (Formula presented) and 160 G-5.2 kG for (Formula presented) in a much extended temperature range from 11 K up to 62 K (Formula presented) where they cross with the low-field irreversibility line (Formula presented) The theoretical fitting of the temperature variation indicates that (Formula presented) is related to the static-disorder induced transition from an ordered vortex quasilattice (or Bragg glass) to an entangled vortex glass state, and (Formula presented) seems to be related to the thermal-disorder induced vortex pancake decoupling transition. The (Formula presented) and (Formula presented) terminations at low and high temperature as well as relaxation are fully discussed.",
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AU - Hsu, Yung-Yuan

AU - Lin, B.

AU - Luo, H.

AU - Ku, H.

PY - 2000/1/1

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N2 - Anomalous c-axis isothermal magnetization results are reported for partial Pb-substituted (Formula presented) single crystals with overdoped superconducting transition (Formula presented) of 69 K and anisotropy parameter (Formula presented) Contrary to optimum-doped Bi-2212 crystals, both second magnetization peak (Formula presented) and onset field (Formula presented) exhibit strong and meaningful temperature dependence (150 G-2 kG for (Formula presented) and 160 G-5.2 kG for (Formula presented) in a much extended temperature range from 11 K up to 62 K (Formula presented) where they cross with the low-field irreversibility line (Formula presented) The theoretical fitting of the temperature variation indicates that (Formula presented) is related to the static-disorder induced transition from an ordered vortex quasilattice (or Bragg glass) to an entangled vortex glass state, and (Formula presented) seems to be related to the thermal-disorder induced vortex pancake decoupling transition. The (Formula presented) and (Formula presented) terminations at low and high temperature as well as relaxation are fully discussed.

AB - Anomalous c-axis isothermal magnetization results are reported for partial Pb-substituted (Formula presented) single crystals with overdoped superconducting transition (Formula presented) of 69 K and anisotropy parameter (Formula presented) Contrary to optimum-doped Bi-2212 crystals, both second magnetization peak (Formula presented) and onset field (Formula presented) exhibit strong and meaningful temperature dependence (150 G-2 kG for (Formula presented) and 160 G-5.2 kG for (Formula presented) in a much extended temperature range from 11 K up to 62 K (Formula presented) where they cross with the low-field irreversibility line (Formula presented) The theoretical fitting of the temperature variation indicates that (Formula presented) is related to the static-disorder induced transition from an ordered vortex quasilattice (or Bragg glass) to an entangled vortex glass state, and (Formula presented) seems to be related to the thermal-disorder induced vortex pancake decoupling transition. The (Formula presented) and (Formula presented) terminations at low and high temperature as well as relaxation are fully discussed.

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