Characterization of modulation spaces by symplectic representations and applications to Schrodinger equations

In the last twenty years modulation spaces, introduced by H. G. Feichtinger in 1983, have been successfully addressed to the study of signal analysis, PDE's, pseudodifferential operators, quantum mechanics, by hundreds of contributions. In 2011 M. de Gosson showed that the time-frequency representation Short-time Fourier Transform (STFT), which is the tool to define modulation spaces, can be replaced by the Wigner distribution. This idea was further generalized to Tau-Wigner representations in [11]. In this paper time-frequency representations are viewed as images of symplectic matrices via metaplectic operators. This new perspective highlights that the protagonists of time -frequency analysis are metaplectic operators and symplectic matrices A is an element of Sp(2d,R). We find conditions on A for which the related symplectic time-frequency representation WA can replace the STFT and give equivalent norms for weighted modulation spaces. In particular, we study the case of covariant matrices A, i.e., their corresponding WA are members of the Cohen class. Finally, we show that symplectic time-frequency representa-tions WA can be efficiently employed in the study of Schrodinger equations. In fact, modulation spaces and WA representations are the frame for a new definition of wave front set, providing a sharp result for propagation of micro -singularities in the case of the quadratic Hamiltonians. This new approach may have further applications in quantum mechanics and PDE's.(c) 2023 Elsevier Inc. All rights reserved.