Abstract
The thermodynamic and spectral properties of electrons coupled to quantum phonons are studied within the spinless Holstein model. Using quantum Monte Carlo simulations, we obtain accurate results for the specific heat and the compressibility, covering the entire range of electron-phonon couplings and phonon frequencies. To this end, we derive an efficient estimator for the specific heat using the properties of the perturbation expansion. This allows us to quantitatively test the predictions of Tomonaga-Luttinger liquid theory as well as the widely used adiabatic approximation for low phonon frequencies. A comparison with the spectral functions of electrons and phonons reveals that the formation of polaron excitations as well as the renormalization of the phonon mode across the Peierls transition have a pronounced effect on the specific heat in the adiabatic regime.
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