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Introduction.- Spherical Inversion on SL2(C).- The Heat Gaussian and Kernel.- QED, LEG, Transpose, and Casimir.- Convergence and Divergence of the Selberg Trace.- The Cuspidal and Non-Cuspidal Traces.- The Heat Kernel.- The Fundamental Domain.- Gamma Periodization of the Heat Kernel.- Heat Kernel Convolution.- The Tube Domain.- The Fourier Expansion of Eisenstein Series.- Adjointness Formula and the Eigenfunction Expansion.- The Eisenstein Y-Asymptotics.- The Cuspidal Trace Y-Asymptotics.- Analytic Evaluations.- Index.- References.
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Add The Heat Kernel and Theta Inversion on SL2(C), The worthy purpose of this text is to provide a complete, self-contained development of the trace formula and theta inversion formula for SL(2,Z[i])\SL(2,C). Unlike other treatments of the theory, the approach taken here is to begin with the heat kernel o, The Heat Kernel and Theta Inversion on SL2(C) to the inventory that you are selling on WonderClubX
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Add The Heat Kernel and Theta Inversion on SL2(C), The worthy purpose of this text is to provide a complete, self-contained development of the trace formula and theta inversion formula for SL(2,Z[i])\SL(2,C). Unlike other treatments of the theory, the approach taken here is to begin with the heat kernel o, The Heat Kernel and Theta Inversion on SL2(C) to your collection on WonderClub |