Sala Lauree (Dipartimento di Fisica - ED. G.Marconi)
Sala Lauree
Dipartimento di Fisica - ED. G.Marconi
Description
In all our known theories, our description of the physical world always
relies on the existence of a classical, ideal reference frame. If we abandon
this idealised view and consider a reference frame as a physical system, we
need to take into account the dynamical degrees of freedom of the reference
frame. Here, we address the question of describing physics within quantum
reference frames. By quantum reference frames we mean a physical system
showing quantum properties such as superposition and entanglement. We
describe how it is possible to change perspective from the classical external
reference frame to a quantum reference frame, we show how the quantum state
transforms, and we address the measurement in quantum reference frames.
Moreover, we consider the dynamical laws and derive the Schrödinger equation
in quantum reference frames. In particular, we analyse the situation in which
the new reference frame is in a superposition of velocities from the point of
view of the old one, and show that the transformation corresponding to a
"superposition of Galilean boosts" preserves the covariance of the
Schrödinger equation.
