The propagation velocity of scintillation light in liquid argon vg at λ∼ 128 nm wavelength,
has been measured for the first time in a dedicated experimental setup at CERN. The …

In this review we deal with open (dissipative and stochastic) quantum systems within the
Bohmian mechanics framework which has the advantage to provide a clear picture of …

At what level of physical existence does" quantum behavior" begin? How does it develop
from classical mechanics? This book addresses these questions and thereby sheds light on …

For two classical Brownian particles an analog of continuous-variable quantum
entanglement is presented: The common probability distribution of the two coordinates and …

We present a modified version of Nelson's seminal paper on the derivation of the time-
dependent Schrödinger equation which draws on the equation of motion of a particle that …

The recent discovery of fractional Taylor's series for nondifferentiable functions, f (x+ h)= Eα
(hαDxα) f (x), where Eα (⋅) denotes the Mittag-Leffler function, and Dxα is the so-called …

Stochastic derivations of the Schrödinger equation are always developed on very general
and abstract grounds. Thus, one is never enlightened which specific stochastic process …

Since the proposal of the Tsallis generalized entropy, the general explanation of the role
played by the parameter q that defines which specific entropy to pick among a whole family …

The Schrödinger equation in phase space is used to calculate the Wigner function for
oscillator systems. The first is two oscillators including dissipative effects. In this case, the …

We study the behavior of the atomic matter immersed in a zero-point radiation field, which is
taken as the source of the endless stochastic motion of electrons. The starting point is a …