Summary
We extend the model of anisotropic superfluidity of hadronic matter previously developed, by giving it an analytic formulation in terms of the Ginzburg-Landau macrowave functions. Analytic solutions of the coupled differential equations of a generalized Ginzburg-Landau type are used to estimate physically measurable parameters. Our work allows us to understand some qualitative aspects of hadronic matter.
Riassunto
Si estende il modello della superfluidità anisotropica della materia adronica precedentemente sviluppato, dandone una formulazione analitica in termini delle funzioni di macroonda di Ginzburg e Landau. Si usano soluzioni analitiche delle equazioni differenziali accoppiate di tipo generalizzato di Ginzburg e Landau per stimare parametri misurabili fisicamente. Questo lavoro permette di capire alcuni aspetti qualitativi della materia adronica.
Реэюме
Мы обобшаем модель аниэотропной сверхтекучести адронного вешества, которая была предложена ранее. Предлагается аналитическая формулировка в терминах макроволновых функций Гинэбурга-Ландау. Испольэуется аналитическое рещение свяэанных дифференциальных уравнений обобшенного типа Гинэбурга-Ландау для оценки фиэически иэмеряемых параметров. Наща работа поэволяет нам понять некоторые качественные аспекты адронного вешества.
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References
Y. Nambu andG. Jona-Lasinio:Phys. Rev.,122, 345 (1961).
J. Chela-Flores:Phys. Rev. D,18, 2632 (1978).
H. Kleinert:What can a particle physicist learn from superliquid 3He?, inErice Lecture Notes (1978), to be published.
V. L. Ginzburg andL. D. Landau:Ž. Ėksp. Teor. Fiz.,20, 1064 (1950).
A. Leggett:Rev. Mod. Phys.,47, 331 (1975).
R. Hagedorn:Statistical thermodynamics of strong interactions, inHigh-Energy Astrophysics and its Relation to Elementary-Particle Physics, edited byK. Brecher andG. Setti (Cambridge, Mass., 1974), p. 255.
S. Eliezer andR. M. Weiner:Phys. Rev. D,13, 87 (1976), and references therein.
J. Bardeen, L. N. Cooper andJ. R. Schrieffer:Phys. Rev.,108, 1175 (1957).
H. B. Nielsen andP. Olesen:Nucl. Phys. B,57, 367 (1973).
H. B. Nielsen andP. Olesen:Nucl. Phys. B,61, 45 (1973).
B. Zumino:Relativistic strings and supergauges, inLectures Given at the 1973 NATO Summer Institute, TH. 1779 CERN.
A. A. Abrikosov:Sov. Phys. JETP,5, 1174 (1957).
J. Bartke, M. Deutschmann, H. G. Kirk, P. Sixel, H. H. Kaufmann, M. Klein, K. Böckmann, R. Hartmann, D. Kocher, P. K. Malhotra, D. R. O. Morrison, P. Porth, F. Triantis, J. Zaorska, W. Zielinski andJ. Krolikowski:Nucl. Phys. B,120, 14 (1977).
J. Chela-Flores andP. Silva-Galiza:Nuovo Cimento, in press (1980).
C. J. Isham, A. Salam andJ. Strathdee:Phys. Rev. D,3, 867 (1971).
J. Chela-Flores:J. Low Temp. Phys.,23, 775 (1976).
J. Chela-Flores:Results from a gauge theory of superfluidity in He, inQuantum Fluids and Solids, edited byS. B. Trickey, E. D. Adams andJ. W. Dufty (New York, N. Y., 1977), p. 405.
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Chela-Flores, J., de Lisa, F. Anisotropic superfluidity of hadronic matter. Nuov Cim A 58, 67–79 (1980). https://doi.org/10.1007/BF02730221
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DOI: https://doi.org/10.1007/BF02730221