Results from 3D electroweak phase transition simulations

Farakos K, Kajantie K, Laine M, Rummukainen K, Shaposhnikov M (1996)
Nuclear Physics B 47(1-3): 705-708.

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We study the phase transition in SU(2)-Higgs model on the lattice using the 3D dimensionally reduced formalism. The 3D formalism enables us to obtain highly accurate Monte Carlo results, which we extrapolate both to the infinite volume and to the continuum limit. Our formalism also provides for a well-determined and unique way to relate the results to the perturbation theory. We measure the critical temperature, latent heat and interface tension for Higgs masses up to 70 GeV.
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Farakos K, Kajantie K, Laine M, Rummukainen K, Shaposhnikov M. Results from 3D electroweak phase transition simulations. Nuclear Physics B. 1996;47(1-3):705-708.
Farakos, K., Kajantie, K., Laine, M., Rummukainen, K., & Shaposhnikov, M. (1996). Results from 3D electroweak phase transition simulations. Nuclear Physics B, 47(1-3), 705-708.
Farakos, K., Kajantie, K., Laine, M., Rummukainen, K., and Shaposhnikov, M. (1996). Results from 3D electroweak phase transition simulations. Nuclear Physics B 47, 705-708.
Farakos, K., et al., 1996. Results from 3D electroweak phase transition simulations. Nuclear Physics B, 47(1-3), p 705-708.
K. Farakos, et al., “Results from 3D electroweak phase transition simulations”, Nuclear Physics B, vol. 47, 1996, pp. 705-708.
Farakos, K., Kajantie, K., Laine, M., Rummukainen, K., Shaposhnikov, M.: Results from 3D electroweak phase transition simulations. Nuclear Physics B. 47, 705-708 (1996).
Farakos, K, Kajantie, K, Laine, Mikko, Rummukainen, K, and Shaposhnikov, M. “Results from 3D electroweak phase transition simulations”. Nuclear Physics B 47.1-3 (1996): 705-708.
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