E-J characteristics and a.c. losses in a superconducting Bi(2223) hollow cylinder

T. Wakuda; T. Nakano; M. Iwakuma; K. Funaki; M. Takeo; K. Yamafuji; Y. Yamada; S. Yasuhara

doi:10.1016/S0011-2275(97)00020-9

E-J characteristics and a.c. losses in a superconducting Bi(2223) hollow cylinder

T. Wakuda, T. Nakano, M. Iwakuma, K. Funaki, M. Takeo, K. Yamafuji, Y. Yamada, S. Yasuhara

Applied Energy Engineering

Research output: Contribution to journal › Article › peer-review

19 Citations (Scopus)

Abstract

E-J characteristics in a hollow cylindrical Bi(2223) bulk sample were measured by an inductive method at various temperatures (50-77 K) and various bias flux densities (0.5-5 T). Observed a.c. losses of the same sample at 50 K and 60 K showed remarkable frequency dependences which are inconsistent with the critical state model. The internal distributions of B, E and J and also the a.c. loss were estimated numerically by solving the Maxwell equations with the measured E-J characteristics. While the calculated internal distributions of B, E and J showed noticeable deviations from those predicted by the critical state model, the numerical analysis of the a.c. losses agreed quantitatively with the observed data in wide ranges of temperature and bias magnetic field. This fact indicates that we can estimate the a.c. loss of the bulk sample from the observed d.c. E-J characteristics.

Original language	English
Pages (from-to)	381-388
Number of pages	8
Journal	Cryogenics
Volume	37
Issue number	7
DOIs	https://doi.org/10.1016/S0011-2275(97)00020-9
Publication status	Published - Jul 1997

All Science Journal Classification (ASJC) codes

Materials Science(all)
Physics and Astronomy(all)

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10.1016/S0011-2275(97)00020-9

Cite this

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title = "E-J characteristics and a.c. losses in a superconducting Bi(2223) hollow cylinder",

abstract = "E-J characteristics in a hollow cylindrical Bi(2223) bulk sample were measured by an inductive method at various temperatures (50-77 K) and various bias flux densities (0.5-5 T). Observed a.c. losses of the same sample at 50 K and 60 K showed remarkable frequency dependences which are inconsistent with the critical state model. The internal distributions of B, E and J and also the a.c. loss were estimated numerically by solving the Maxwell equations with the measured E-J characteristics. While the calculated internal distributions of B, E and J showed noticeable deviations from those predicted by the critical state model, the numerical analysis of the a.c. losses agreed quantitatively with the observed data in wide ranges of temperature and bias magnetic field. This fact indicates that we can estimate the a.c. loss of the bulk sample from the observed d.c. E-J characteristics.",

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T1 - E-J characteristics and a.c. losses in a superconducting Bi(2223) hollow cylinder

AU - Wakuda, T.

AU - Nakano, T.

AU - Iwakuma, M.

AU - Funaki, K.

AU - Takeo, M.

AU - Yamafuji, K.

AU - Yamada, Y.

AU - Yasuhara, S.

PY - 1997/7

Y1 - 1997/7

N2 - E-J characteristics in a hollow cylindrical Bi(2223) bulk sample were measured by an inductive method at various temperatures (50-77 K) and various bias flux densities (0.5-5 T). Observed a.c. losses of the same sample at 50 K and 60 K showed remarkable frequency dependences which are inconsistent with the critical state model. The internal distributions of B, E and J and also the a.c. loss were estimated numerically by solving the Maxwell equations with the measured E-J characteristics. While the calculated internal distributions of B, E and J showed noticeable deviations from those predicted by the critical state model, the numerical analysis of the a.c. losses agreed quantitatively with the observed data in wide ranges of temperature and bias magnetic field. This fact indicates that we can estimate the a.c. loss of the bulk sample from the observed d.c. E-J characteristics.

AB - E-J characteristics in a hollow cylindrical Bi(2223) bulk sample were measured by an inductive method at various temperatures (50-77 K) and various bias flux densities (0.5-5 T). Observed a.c. losses of the same sample at 50 K and 60 K showed remarkable frequency dependences which are inconsistent with the critical state model. The internal distributions of B, E and J and also the a.c. loss were estimated numerically by solving the Maxwell equations with the measured E-J characteristics. While the calculated internal distributions of B, E and J showed noticeable deviations from those predicted by the critical state model, the numerical analysis of the a.c. losses agreed quantitatively with the observed data in wide ranges of temperature and bias magnetic field. This fact indicates that we can estimate the a.c. loss of the bulk sample from the observed d.c. E-J characteristics.

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E-J characteristics and a.c. losses in a superconducting Bi(2223) hollow cylinder

Abstract

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