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W2893083588 abstract "Light with a chemical potential and no mass is shown to possess a general phase-transition curve to Bose-Einstein condensation. This limiting density and temperature range is found by the diverging in-medium potential range of effective interaction. The inverse expansion series of the effective interaction from Bethe-Salpeter equation is employed exceeding the ladder approximation. While usually the absorption and emission with Dye molecules is considered, here it is proposed that squeezing can create also such a mean interaction leading to a chemical potential. The equivalence of squeezed light with a complex Bogoliubov transformation of interacting Bose system with finite lifetime is established with the help of which an effective gap is deduced where the squeezing parameter is related to an equivalent gap by $|Delta(omega)|={hbar omega/( coth {2|z(omega)|}-1)}$. This gap phase creates a finite condensate in agreement with the general limiting density and temperature range. In this sense it is shown that squeezing induces the same effect on light as an interaction leading to possible condensation. The phase diagram for condensation is presented due to squeezing and the appearance of two gaps is discussed." @default.
W2893083588 created "2018-10-05" @default.
W2893083588 creator A5024567243 @default.
W2893083588 date "2019-05-15" @default.
W2893083588 modified "2023-09-26" @default.
W2893083588 title "Bose condensation of squeezed light" @default.
W2893083588 cites W1505581724 @default.
W2893083588 cites W1584661976 @default.
W2893083588 cites W1855985592 @default.
W2893083588 cites W1971202138 @default.
W2893083588 cites W1971624840 @default.
W2893083588 cites W1972560626 @default.
W2893083588 cites W1975345179 @default.
W2893083588 cites W1976233285 @default.
W2893083588 cites W1979262207 @default.
W2893083588 cites W1980391910 @default.
W2893083588 cites W1981925541 @default.
W2893083588 cites W1988894974 @default.
W2893083588 cites W1990395344 @default.
W2893083588 cites W1994168807 @default.
W2893083588 cites W1995155723 @default.
W2893083588 cites W1997245165 @default.
W2893083588 cites W1998374539 @default.
W2893083588 cites W1999194691 @default.
W2893083588 cites W2001619415 @default.
W2893083588 cites W2002839585 @default.
W2893083588 cites W2006327420 @default.
W2893083588 cites W2010762437 @default.
W2893083588 cites W2011825427 @default.
W2893083588 cites W2016651307 @default.
W2893083588 cites W2018401855 @default.
W2893083588 cites W2018494532 @default.
W2893083588 cites W2018744189 @default.
W2893083588 cites W2023698079 @default.
W2893083588 cites W2023858603 @default.
W2893083588 cites W2027014716 @default.
W2893083588 cites W2027530486 @default.
W2893083588 cites W2027792307 @default.
W2893083588 cites W2029715417 @default.
W2893083588 cites W2033167197 @default.
W2893083588 cites W2036710731 @default.
W2893083588 cites W2038807124 @default.
W2893083588 cites W2038959624 @default.
W2893083588 cites W2039440551 @default.
W2893083588 cites W2040661609 @default.
W2893083588 cites W2041653651 @default.
W2893083588 cites W2043525388 @default.
W2893083588 cites W2045273406 @default.
W2893083588 cites W2057068842 @default.
W2893083588 cites W2061432205 @default.
W2893083588 cites W2062155132 @default.
W2893083588 cites W2068220853 @default.
W2893083588 cites W2072945636 @default.
W2893083588 cites W2074012544 @default.
W2893083588 cites W2075250953 @default.
W2893083588 cites W2076113334 @default.
W2893083588 cites W2076543680 @default.
W2893083588 cites W2080219332 @default.
W2893083588 cites W2080939457 @default.
W2893083588 cites W2082022862 @default.
W2893083588 cites W2082582972 @default.
W2893083588 cites W2090637431 @default.
W2893083588 cites W2092186953 @default.
W2893083588 cites W2093768696 @default.
W2893083588 cites W2103752582 @default.
W2893083588 cites W2105203633 @default.
W2893083588 cites W2105333283 @default.
W2893083588 cites W2105966445 @default.
W2893083588 cites W2124156444 @default.
W2893083588 cites W2128492092 @default.
W2893083588 cites W2131323265 @default.
W2893083588 cites W2134018401 @default.
W2893083588 cites W2137879609 @default.
W2893083588 cites W2140493674 @default.
W2893083588 cites W2141826656 @default.
W2893083588 cites W2142053179 @default.
W2893083588 cites W2149852714 @default.
W2893083588 cites W2168450928 @default.
W2893083588 cites W2205581895 @default.
W2893083588 cites W2258606921 @default.
W2893083588 cites W2270388039 @default.
W2893083588 cites W2297931883 @default.
W2893083588 cites W2339026752 @default.
W2893083588 cites W2515893835 @default.
W2893083588 cites W2594577967 @default.
W2893083588 cites W2607386794 @default.
W2893083588 cites W2612937444 @default.
W2893083588 cites W2726873017 @default.
W2893083588 cites W2737512896 @default.
W2893083588 cites W2761881704 @default.
W2893083588 cites W2788830275 @default.
W2893083588 cites W2792145015 @default.
W2893083588 cites W2902231523 @default.
W2893083588 cites W3098235000 @default.
W2893083588 cites W3103203998 @default.
W2893083588 cites W3105889440 @default.
W2893083588 cites W3106036925 @default.
W2893083588 cites W4240167547 @default.
W2893083588 cites W51206384 @default.
W2893083588 doi "https://doi.org/10.1103/physrevb.99.205124" @default.