Time, cosmology and quantum foundations

I argue that quantum mechanics cannot usefully  be extended to a theory of the whole universe, so the task of quantum foundations is to discover that cosmological theory which reduces to quantum mechanics when restricted to small subsystems of the universe.  I argue that that cosmological theory will be based on a global notion of physical time which implies the distinction between past, present and future is real and objective.  These motivate two examples of novel formulations of quantum theory: the real ensemble formulation and the principle of precedence.  Each may imply departur

Lecture Series presented by KPMG - The Origin of the Universe and the Arrow of Time

One of the most obvious facts about the universe is that the past is different from the future. We can turn an egg into an omelet, but can't turn an omelet into an egg. Physicists have codified this difference into the Second Law of Thermodynamics: the entropy of a closed system always increases with time. But why? The ultimate explanation is to be found in cosmology: special conditions in the early universe are responsible for the arrow of time.

Meet a Scientist - Jenann Ismael

The nature of time, probability and quantum mechanics, philosophy of physics and metaphysics, especially issues involving the role of mathematical tools like symmetry in physics, and applying this formal apparatus to the philosophy of mind.

Time Reborn

What is time?  Is our perception of time passing an illusion which hides a deeper, timeless reality?  Or is it real, indeed, the most real aspect of our experience of the world?  Einstein said that "the distinction between past, present, and future is only a stubbornly persistent illusion,"  and many contemporary theorists agree that time emerges from a more fundamental timeless quantum universe. But, in recent cosmological speculation, this timeless picture of nature seems to have reached a dead end, populated by infinite numbers of imagined unobservable universes.  

What is motion? What is time?

I give an account of the Machian approach to dynamics,
from Mach's critique of Newton to the work of Barbour, Bertotti, York and
O'Murchadha, which culminated in the theory of Shape Dynamics, a new and
original way of thinking about General Relativity. I conclude commenting on the
present research lines in Shape Dynamics, and the opportunity it offers to
solve the problem of time in quantum gravity.

Support
for this colloquium is provided by The Templeton Frontiers Program.

Time and a Physical Hamiltonian for Quantum Gravity

I will describe an approach to the problem of time that uses dust as a time variable. The canonical theory is such that there is a true Hamiltonian with spatial diffeomorphisms as the only gauge symmetry. This feature, and the form of the Hamiltonian, suggest a model for non-perturbative quantum gravity that is computationally accessible using the formalism of loop quantum gravity.  

Does Time Exist?

Any Quantum State Can be Cloned in the Presence of a Closed Timelike Curve

Using the Deutsch approach, we show that the no-cloning theorem can be circumvented in the presence of closed timelike curves, allowing the perfect cloning of a quantum state chosen randomly from a finite alphabet of states. Further, we show that a universal cloner can be constructed that when acting on a completely arbitrary qubit state, exceeds the no-cloning bound on fidelity.