Full counting statistics and field theory

We report our recent study on the full counting statistics (FCS) of transport through a molecular quantum dot magnet. Our analysis is theoretical, and its range of validity is restricted here to the incoherent tunneling regime. One of the original points is our Hamiltonian describing a single-level

Measurements of the average current and its fluctuation (noise) have been powerful tools to study the quantum transport in mesoscopic systems. Recently it became possible to measure the higher moment of the current probability distribution and moreover, the current distribution itself ('full countin

We examine the statistical properties of a single-mode electromagnetic field whose state is described by a Gaussian characteristic function. Our single tool is the generating function of the photon-number probabilities, for which we prove a kind of addition theorem with regard to its argument. As a

## Dedicated to Richard Lemmer on the occasion of his 60 th birthday A statistical theory of the mean field is developed. It is based on the proposition that the mean field can be obtained as an energy average. Moreover, it is assumed that the matrix elements of the residual interaction, obtained