Physics takes for granted that interacting physical systems with no common history are independent, before their interaction. This principle is time-asymmetric, for no such restriction applies to systems with no common future, after an interaction. The time-asymmetry is normally attributed to boundary conditions. I argue that there are two distinct independence principles of this kind at work in contemporary physics, one of which cannot be attributed to boundary conditions, and therefore conflicts with the assumed T (or CPT) symmetry of microphysics. I note that this may have interesting ramifications in quantum mechanics
This is Part 1 of a four part paper, intended to redress some of the most fundamental confusions in ...
Statistical mechanics is a time invariant explanation of thermodynamic phenomena at a microphysical ...
It has been suggested that some of the puzzles of QM are resolved if we allow that there is retrocau...
There is a stark tension among different formulations of quantum theory in that some are fundamental...
The disparity between the time symmetry of the fundamental laws of physics and the time asymmetries ...
Physicists routinely claim that the fundamental laws of physics are 'time symmetric' or 'time revers...
Whilst the fundamental laws of physics are time-reversal invariant, most macroscopic processes are i...
We argue that the inaccessibility of the past is not merely the result of thermodynamics: instead it...
Most existing proposals to explain the temporal asymmetries we see around us are sited within an app...
In this paper I shall shed some doubts on a widely-held claim: standard quantum mechanics is time-re...
Quantum mechanics allows one to independently select both the initial and final states of a single s...
This talk briefly reviews three types of time-asymmetry in physics, which I classify as universal, m...
It is explained how the unification of resonance and decay phenomena into a consistent mathematical ...
In this paper I suggest a possible explanation for the asymmetry of time. In the models that I study...
Many macroscopic physical processes are known to occur in a time-directed way despite the apparent t...
This is Part 1 of a four part paper, intended to redress some of the most fundamental confusions in ...
Statistical mechanics is a time invariant explanation of thermodynamic phenomena at a microphysical ...
It has been suggested that some of the puzzles of QM are resolved if we allow that there is retrocau...
There is a stark tension among different formulations of quantum theory in that some are fundamental...
The disparity between the time symmetry of the fundamental laws of physics and the time asymmetries ...
Physicists routinely claim that the fundamental laws of physics are 'time symmetric' or 'time revers...
Whilst the fundamental laws of physics are time-reversal invariant, most macroscopic processes are i...
We argue that the inaccessibility of the past is not merely the result of thermodynamics: instead it...
Most existing proposals to explain the temporal asymmetries we see around us are sited within an app...
In this paper I shall shed some doubts on a widely-held claim: standard quantum mechanics is time-re...
Quantum mechanics allows one to independently select both the initial and final states of a single s...
This talk briefly reviews three types of time-asymmetry in physics, which I classify as universal, m...
It is explained how the unification of resonance and decay phenomena into a consistent mathematical ...
In this paper I suggest a possible explanation for the asymmetry of time. In the models that I study...
Many macroscopic physical processes are known to occur in a time-directed way despite the apparent t...
This is Part 1 of a four part paper, intended to redress some of the most fundamental confusions in ...
Statistical mechanics is a time invariant explanation of thermodynamic phenomena at a microphysical ...
It has been suggested that some of the puzzles of QM are resolved if we allow that there is retrocau...