Abstract
By using a diagrammatical technique it is shown that in scalar theories the stochastic quantization method of Parisi and Wu gives the usual perturbation series in Feynman diagrams.
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References
G. Parisi, Wu Yongshi: Sci. Sin.24, 483 (1981)
See e.g. A.H. Jazwinski: Stochastic processes and filtering theory. In: Mathematics in science and engineering. Bellmann, R. (ed.), Vol. 64. New York: Academic Press 1970
V.N. Gribov: Nucl. Phys.B139, 1 (1978)
C. De Dominicis: Lett. Nuovo Cimento12, 567 (1975)
D. Zwanziger: Nucl. Phys.B192, 259 (1981); D. Zwanziger: Phys. Lett.114B, 337 (1982); L. Baulieu D. Zwanziger: Nucl. Phys.B193, 163 (1981)
A. Niemi, L.C.R. Wijewardhana: Ann. Phys.140, 247 (1982). Though their method of stochastic quantization is quite different from that of Parisi and Wu, the diagrammatic representation is the same in both methods, but the interpretation is different
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Supported in part by a fellowship of the French Government
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Grimus, W., Hüffel, H. Perturbation theory from stochastic quantization of scalar fields. Z. Phys. C - Particles and Fields 18, 129–134 (1983). https://doi.org/10.1007/BF01572474
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DOI: https://doi.org/10.1007/BF01572474