Talks

11089 - 11100 of 16955 Results

Combinatorics and the thermodynamic limit for black holes in Loop Quantum Gravity

Fernando Barbero Spanish National Research Council (CSIC)

September 13, 2012

PIRSA:12090038

Quantum Gravity
Relativity - Lecture 4

Michael Duff Imperial College London

September 13, 2012

PIRSA:12090022
Quantum Theory - Lecture 4

Joseph Emerson Institute for Quantum Computing (IQC)

September 13, 2012

PIRSA:12090003
Relativity - Lecture 3

Michael Duff Imperial College London

September 12, 2012

PIRSA:12090021
Quantum Theory - Lecture 3

Joseph Emerson Institute for Quantum Computing (IQC)

September 12, 2012

PIRSA:12090002
Charge fractionalization and entanglement entropy for compressible phases in holography

Liza Huijse Karius, Inc.

September 11, 2012

PIRSA:12090059

Condensed Matter
The Exploration of Hot QCD Matter

Berndt Mueller Duke University

September 11, 2012

PIRSA:12090046

Particle Physics
Spectral distortions of the CMB and what we might learn about early universe physics

Jens Chluba University of Manchester

September 11, 2012

PIRSA:12090060

Cosmology
Relativity - Lecture 2

Michael Duff Imperial College London

September 11, 2012

PIRSA:12090020
Quantum Theory - Lecture 2

Joseph Emerson Institute for Quantum Computing (IQC)

September 11, 2012

PIRSA:12090001
Relativity - Lecture 1

Michael Duff Imperial College London

September 10, 2012

PIRSA:12090019
Quantum Theory - Lecture 1

Joseph Emerson Institute for Quantum Computing (IQC)

September 10, 2012

PIRSA:12090000

Combinatorics and the thermodynamic limit for black holes in Loop Quantum Gravity

Fernando Barbero Spanish National Research Council (CSIC)

September 13, 2012

PIRSA:12090038

Quantum Gravity

The combinatorial problems associated with the counting of black hole states in loop quantum gravity can be analyzed by using suitable generating functions. These not only provide very useful tools for exact computations, but can also be used to perform an statistical analysis of the black hole degeneracy spectrum, study the interesting substructure found in the entropy of microscopic black holes and its asymptotic behavior for large horizon areas. The methods that will be described are relevant for the discussion of the thermodynamic limit for black holes in the area canonical ensemble. This is an important issue in order to understand sub-leading corrections to the Bekenstein-Hawking law.
Relativity - Lecture 4

Michael Duff Imperial College London

September 13, 2012

PIRSA:12090022
Quantum Theory - Lecture 4

Joseph Emerson Institute for Quantum Computing (IQC)

September 13, 2012

PIRSA:12090003
Relativity - Lecture 3

Michael Duff Imperial College London

September 12, 2012

PIRSA:12090021
Quantum Theory - Lecture 3

Joseph Emerson Institute for Quantum Computing (IQC)

September 12, 2012

PIRSA:12090002
Charge fractionalization and entanglement entropy for compressible phases in holography

Liza Huijse Karius, Inc.

September 11, 2012

PIRSA:12090059

Condensed Matter
The Exploration of Hot QCD Matter

Berndt Mueller Duke University

September 11, 2012

PIRSA:12090046

Particle Physics

When nuclear matter is heated beyond a temperature of 2 trillion
degrees, it converts into a strongly coupled plasma of quarks and
gluons, the sQGP. Experiments using highly energetic collisions
between heavy nuclei have revealed that this new state of matter is a
nearly ideal, highly opaque liquid. A description based upon string
theory and black holes in five dimensions has made the quark- gluon
plasma an iconic example of a strongly coupled quantum system. In this
lecture I will survey the observed properties of the sQGP in the light
of the latest results from RHIC and LHC. On the theoretical side, I
will discuss the thermalization and entropy production problem and
origin and role of event-by-event fluctuations.
Spectral distortions of the CMB and what we might learn about early universe physics

Jens Chluba University of Manchester

September 11, 2012

PIRSA:12090060

Cosmology

The spectrum of the cosmic microwave background (CMB) is known to be extremely close to a perfect blackbody. However, even within standard cosmology several processes occurring in the early Universe lead to distortions of the CMB at a level that might become observable in the future. This could open an exciting new window to early Universe physics. In my talk I will then explain in more detail why the cooling of matter in the early Universe causes a negative mu- and y-type distortion and how the damping of primordial small-scale perturbations before recombination could allow placing interesting constraints on different inflationary models.
Relativity - Lecture 2

Michael Duff Imperial College London

September 11, 2012

PIRSA:12090020
Quantum Theory - Lecture 2

Joseph Emerson Institute for Quantum Computing (IQC)

September 11, 2012

PIRSA:12090001
Relativity - Lecture 1

Michael Duff Imperial College London

September 10, 2012

PIRSA:12090019
Quantum Theory - Lecture 1

Joseph Emerson Institute for Quantum Computing (IQC)

September 10, 2012

PIRSA:12090000

Title	Date	Collection	Type	Info
Combinatorics and the thermodynamic limit for black holes in Loop Quantum Gravity	2012‑09‑13	Quantum Gravity	Scientific Series	View details
Relativity - Lecture 4	2012‑09‑13	12/13 PSI - Relativity	Course	View details
Quantum Theory - Lecture 4	2012‑09‑13	12/13 PSI - Quantum Theory	Course	View details
Relativity - Lecture 3	2012‑09‑12	12/13 PSI - Relativity	Course	View details
Quantum Theory - Lecture 3	2012‑09‑12	12/13 PSI - Quantum Theory	Course	View details
Charge fractionalization and entanglement entropy for compressible phases in holography	2012‑09‑11	Quantum Matter	Scientific Series	View details
The Exploration of Hot QCD Matter	2012‑09‑11	Quantum Fields and Strings	Scientific Series	View details
Spectral distortions of the CMB and what we might learn about early universe physics	2012‑09‑11	Cosmology and Gravitation	Scientific Series	View details
Relativity - Lecture 2	2012‑09‑11	12/13 PSI - Relativity	Course	View details
Quantum Theory - Lecture 2	2012‑09‑11	12/13 PSI - Quantum Theory	Course	View details
Relativity - Lecture 1	2012‑09‑10	12/13 PSI - Relativity	Course	View details
Quantum Theory - Lecture 1	2012‑09‑10	12/13 PSI - Quantum Theory	Course	View details

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