Superheating in a semi-infinite film in the weak κ limit : numerical results and approximate models

Catherine Bolley; Bernard Helffer

ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique (1997)

  • Volume: 31, Issue: 1, page 121-165
  • ISSN: 0764-583X

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Bolley, Catherine, and Helffer, Bernard. "Superheating in a semi-infinite film in the weak $\kappa $ limit : numerical results and approximate models." ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique 31.1 (1997): 121-165. <http://eudml.org/doc/193829>.

@article{Bolley1997,
author = {Bolley, Catherine, Helffer, Bernard},
journal = {ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique},
keywords = {superheating field; Ginzburg-Landau equations; numerical experiments},
language = {eng},
number = {1},
pages = {121-165},
publisher = {Dunod},
title = {Superheating in a semi-infinite film in the weak $\kappa $ limit : numerical results and approximate models},
url = {http://eudml.org/doc/193829},
volume = {31},
year = {1997},
}

TY - JOUR
AU - Bolley, Catherine
AU - Helffer, Bernard
TI - Superheating in a semi-infinite film in the weak $\kappa $ limit : numerical results and approximate models
JO - ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique
PY - 1997
PB - Dunod
VL - 31
IS - 1
SP - 121
EP - 165
LA - eng
KW - superheating field; Ginzburg-Landau equations; numerical experiments
UR - http://eudml.org/doc/193829
ER -

References

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  1. [1] J. BLOT, 1987, Relation entre les grandeurs supraconductrices caractéristiques de l'aluminium massif et les champs de transition de films en fonction de leur épaisseur. Thesis, Rennes 1. 
  2. [2] C. BOLLEY, 1992, Modélisation du champ de retard à la condensation d'un supraconducteur par un problème de bifurcation, M2AN, 26, n° 2, pp. 235-287. Zbl0741.35085MR1153002
  3. [3] C. BOLLEY, 1993, Remarks on critical fields of a superconducting film. International conférence on mathematics of superconductivity, Seattle, (25-29 July). 
  4. [4] C. BOLLEY, 1995, Numerical study of the superheating field for the Ginzburg-Landau equations in the half-space model. Preprint École Centrale de Nantes. 
  5. [5] C. BOLLEY, B. HELFFER, 1996, Rigorous results on the Ginzburg-Landau modelsm a film submitted to an extenor parallel magnetic field. Part II - Nonlinear Studies, 3, n° 2, pp 1-32. Zbl0869.34016MR1396033
  6. [6] C. BOLLEY, B. HELFFER, 1993, Sur les asymptotiques des champs critiques pourl' équation de Ginzburg-Landau, Séminaire équations aux dérivées partielles de l'École Polytechnique, expose n° IV (novembre). Zbl0877.35120
  7. [7] C. BOLLEY, B. HELFFER, 1994, On the asymptotics of the critical field for the Ginzburg-Landau equation, Progress in Partial Differential Equations the Metz Surveys 3. Ed. M. Chipot, J. Saint Jean Paulin, I. Shafrir, Pitman Research Notes in Math, Series 314. Zbl0836.35019MR1300899
  8. [8] C. BOLLEY, B. HELFFER, Rigorous results for the Ginzburg-Landau equations associated to a superconductmg film in the weak k limit, in Reviews in Math. Physics, Vol 8, n° 1, pp 43-83. Zbl0864.35097MR1372515
  9. [9] C. BOLLEY, B. HELFFER, 1994, Superheating in a film in the weak K limit : numerical results and approxmiate model, Preprint de l'École Centrale de Nantes. Zbl0868.65087
  10. [10] C. BOLLEY, B. HELFFER, 1995, Proof of the De Gennes formula for the superheating field in the weak k limit, to appear in Ann. Institut Henri Poincaré Anal. non lin. Zbl0889.34010MR1637965
  11. [11] A. R. CHAMPNEYS, P. G. HJORTH, 1992, Symplectic integration of separatrix crossing orbits, Mat. report n° 1992-25, Math. Institute, Denmark. 
  12. [12] S.J. CHAPMAN, 1993, Nucleation of superconductivity in decreasing fields, Preprint. Zbl0820.35124
  13. [13] S. J. CHAPMAN, S. D. HOWISON, J. B. MCLEOD and J.R. OCKENDON, 1991, Normal-superconducting transitions in Ginzburg-Landau theory, Proc. Roy. Soc. Edin, 119A,pp 117-124. Zbl0732.34003MR1130600
  14. [14] S. J. CHAPMAN, S D HOWISON, J.R. OCKENDON, 1992, Macroscopic models for superconductivity, SIAM review, 34, n° 4, pp. 529-560. Zbl0769.73068MR1193011
  15. [15] M. CROUZEIX, 1975, Sur l'approximation des équations différentielles opérationnelles linéaires par des méthodes de Runge-Kutta, Thesis, Rennes. 
  16. [16] M. CROUZEIX, A. L. MlGNOT, 1984, Analyse numérique des équations différentielles, Masson. Zbl0635.65079MR762089
  17. [17] H. J. FINK, D. S. MCLACHLAN, B. ROTHBERG-BIBBY, 1978, First and second order phase transitions of moderately small superconductors in a magnetic field. Chap. 6 in Progress in Low temperature Physics, Vol. VIIB, North-Holland. 
  18. [18] V. P. GALAIKO, 1968, Superheating critical field for superconductors of the first kind, Soviet Physics JETP, 27, n° 1, July. 
  19. [19] P. G. de GENNES, 1966, Superconductivity : selected topics in solid state physics and theoretical Physics, Proc. of 8th Latin american school of physics, Caracas. 
  20. [20] V. L. GINZBURG, 1955, On the theory of superconductivity, Nuovo Cimento 2, p 1234. Zbl0067.23504
  21. [21] V. L. GlNZBURG, 1958, On the destruction and the onset of superconductivity in a magnetic field, Soviet Physics JETP 7, 78. Zbl0099.44703
  22. [22] V. L. GINZBURG, L. D. LANDAU, 1950, On the theory of superconductivity, Zh. Eksperim. i teor. Fiz., 20, pp 1064-1082 English translation Men of Physics : L. D. Landau, I, Ed. by D. Ter Haar, Pergamon Oxford, pp. 138-167 (1965). 
  23. [23] J. GUCKENHEIMER, P. HOLMES, 1983, Nonlinear oscillations, dynamical systems and bifurcations of vector fields, Springer Verlag. Zbl0515.34001MR709768
  24. [24] D. SAINT JAMES, G. SARMA and E. J. THOMAS, 1969, Type II Superconductivity, Pergamon Press. 
  25. [25] J. MATRICON, D. SAINT JAMES, 1967, Superheating fields in superconductors. Physics Letters, 24A, n° 5, pp. 241-242. 
  26. [26] The Orsay group, 1966, in Quantum fluids (éd. D. F. Brewer), p. 26, Amsterdam,North Holland. 
  27. [27] H. PARR, 1976, Superconductive superheating field for finite K, Z. Physik B25,pp. 359-361. 
  28. [28] H. PARR and J. FEDER, 1973, Superconductivity in ß-Phase gallium, Physical review B, 7, n° 1. 
  29. [29] Y. PELLAN, 1987, Étude de la stabilité de la transition supraconductrice de films divisés d'Indium sous champ magnétique parallèle et perpendiculaire. Thesis, Rennes 1. 
  30. [30] S. WANG, Y. YANG, 1992, Symmetric superconducting states in thin films, SIAM J. Appl. Math., 52, p. 614. Zbl0758.35075MR1163796

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