Jürgen König, Herbert Schoeller
Published 1998-07-07Version 1
We study strong tunneling (i.e. transmission $h/e^2R_T \gg 1$) in the single-electron box with many transverse modes at zero temperature. We develop a new renormalization group method which includes all charge states and requires no initial or final energy cutoff. We determine the ground-state energy, the average charge and the renormalized charging energy. The covered range for the coupling constant and the gate voltage is much increased in comparison to recent perturbative approaches, poor man scaling methods and Quantum Monte Carlo simulations. We reach the regime where Coulomb blockade become practically unobservable.
Comments: 5 pages, 5 figures
Journal: Phys. Rev. Lett. 81, 3511 (1998)
Fluctuations of Heat in Driven Two-State Systems: Application to Single-Electron Box with Superconducting Gap
Quantum thermodynamics in a single-electron box
Broadening of the transition between charge states in the single-electron box by the measurement process
