Conference

Displaying 4657 - 4668 of 4979

Nonlinear Structure Formation and Apparent Acceleration: An Investigation

Alessio Notari
May 19, 2007

PIRSA:07050037
Cosmology
Non-Anthropic Approaches to the String Landscape

G. Watson University of Michigan–Ann Arbor
May 19, 2007

PIRSA:07050036
Cosmology
Large Extra Dimensions and Darkness From String Theory

Fernando Quevedo University of Cambridge
May 19, 2007

PIRSA:07050035
Cosmology
Explorations in Supersymmetric Large Extra Dimensions

Susha Parameswaran University of Liverpool
May 18, 2007

PIRSA:07050033
Cosmology
Dark Energy and Neutrino Mass

Urbano Franca Harvard University
May 18, 2007

PIRSA:07050032
Cosmology
Two Topics on the Accelerating Universe

Gregory Gabadadze New York University (NYU)
May 18, 2007

PIRSA:07050030
Cosmology
Dynamics of Linear Perturbations in Modified Gravity Theories

Alessandra Silvestri Leiden University
May 18, 2007

PIRSA:07050031
Cosmology
Embedding Quintessence in Spontaneously Broken N=1 Supergravity

Philippe Brax CEA Saclay
May 18, 2007

PIRSA:07050029
Cosmology
Dark Energy from variation of the fundamental scale

Christof Wetterich Universität Heidelberg
May 18, 2007

PIRSA:07050028
Cosmology
Reliable Quantum State Estimation from Quantum Scoring Rules

Robin Blume-Kohout Sandia National Laboratories
December 08, 2006

PIRSA:06120042
Quantum Information
Quantum Computing with Delocalised Qubits
December 08, 2006

PIRSA:06120041
Quantum Information
TBA

Sarah Croke University of Glasgow
December 08, 2006

PIRSA:06120040
Quantum Information

Nonlinear Structure Formation and Apparent Acceleration: An Investigation

Alessio Notari
May 19, 2007

PIRSA:07050037
Cosmology
We present analytically solvable nonlinear models of structure formation in a Universe with only dust, using LTB solutions. We show that the luminosity distance-redshift relation has significant corrections at low redshift (Doppler effect). We discuss different possibilities that could further enhance this effect and mimick Dark Energy. We find negligible integrated effect, suppressed by $(L/R_{H})^3$ (where $L$ is the size of the structure, and $R_{H}$ is the Hubble radius) and we make contact with cosmological perturbation theory.
Non-Anthropic Approaches to the String Landscape

G. Watson University of Michigan–Ann Arbor
May 19, 2007

PIRSA:07050036
Cosmology
We consider the effect that dynamical selection principles could have on the string landscape and for determining the value of the cosmological constant. The underlying symmetries of string theory, along with the dynamics of moduli in the low energy effective field theory, seem to suggest that not all vacua are created equal. However, in some simple models many vacua are alike and this degeneracy may suggest a *non-anthropic* approach to understanding the observed value of the cosmological constant. The approach may also lead to a viable model of inflation, without the need of fine-tuned potentials.
Large Extra Dimensions and Darkness From String Theory

Fernando Quevedo University of Cambridge
May 19, 2007

PIRSA:07050035
Cosmology
Explorations in Supersymmetric Large Extra Dimensions

Susha Parameswaran University of Liverpool
May 18, 2007

PIRSA:07050033
Cosmology
Brane worlds may provide insight into the cosmological constant problem because a large vacuum energy on the brane can curve the extra dimensions rather than the local 4D spacetime. Moreover, such models with supersymmetric large extra dimensions reveal a tantalizing numerology, in which the size of the two extra dimensions can lead not only to the electroweak hierarchy but also to the observed dark energy scale. I will review this proposal, its promises and problems, and then describe some of the novel physics that can arise in 6D brane worlds. The dynamical stability of models in 6D supergravity constrains the matter content of the theory, but surprisingly this can be relaxed with negative tension branes. Meanwhile, the Kaluza-Klein mass gap can remain finite even in the infinite volume limit.
Dark Energy and Neutrino Mass

Urbano Franca Harvard University
May 18, 2007

PIRSA:07050032
Cosmology
One of the possible explanations for the current acceleration of the universe comes from a coupling between the Dark Energy and the Neutrino sectors. This coupling causes the neutrino mass to vary with cosmic time, what opens a new window to constrain this dark energy candidate. In this work, we analyze the mass-varying neutrino scenario in a model independent way, focusing on its effects for the Cosmic Microwave Background and Large Scale Structure.
Two Topics on the Accelerating Universe

Gregory Gabadadze New York University (NYU)
May 18, 2007

PIRSA:07050030
Cosmology
Dynamics of Linear Perturbations in Modified Gravity Theories

Alessandra Silvestri Leiden University
May 18, 2007

PIRSA:07050031
Cosmology
A modification of Gravity in the low-curvature regime may account for the late time acceleration of our universe, and is therefore an interesting alternative to Dark Energy.In such models, the modified Einstein equations admit self-accelerated solutions in the presence of negligible matter. At the level of perturbation theory,the modified equations give rise to new dynamics for the perturbations of the metric and matter. I will consider scalar perturbations, presenting in some details the dynamics of linear perturbations for two specific models, f(R) Gravity and Modified Source Gravity. I will conclude by demonstrating how some characteristic features of these models are likely to be common to general models of Modified Gravity and how Large Scale Structure formation and the Integrated Sachs Wolfe effect might be useful probes to distinguish between Dark Energy and Modified Gravity.
Embedding Quintessence in Spontaneously Broken N=1 Supergravity

Philippe Brax CEA Saclay
May 18, 2007

PIRSA:07050029
Cosmology
I will present the embedding of runaway quintessence models in supergravity coupled to observable matter and hidden supersymmetry breaking. Serious obstructions appear either in the gravitational sector of the theory or cosmologically. Alternatives will be discussed.
Dark Energy from variation of the fundamental scale

Christof Wetterich Universität Heidelberg
May 18, 2007

PIRSA:07050028
Cosmology
We explore the hypothesis that a dynamical dark energy is related to a time-variation of the fundamental mass scale. A dilatation anomaly induced by quantum fluctuations could explain the small value of the present dark energy. Reformulated as a scalar field theory this would predict a quintessence potential which asymptotically relaxes to zero rather than to a nonvanishing constant. An observable consequence of such a scenario results in "early dark energy " contributing a few percent to the energy density of the Universe even at high redshift. Quintessence would be related to a new "fundamental" macroscopic force and induce a small time variation of fundamental constants.
Reliable Quantum State Estimation from Quantum Scoring Rules

Robin Blume-Kohout Sandia National Laboratories
December 08, 2006

PIRSA:06120042
Quantum Information
Inferring a quantum system\'s state, from repeated measurements, is critical for verifying theories and designing quantum hardware. It\'s also surprisingly easy to do wrong, as illustrated by maximum likelihood estimation (MLE), the current state of the art. I\'ll explain why MLE yields unreliable and rank-deficient estimates, why you shouldn\'t be a quantum frequentist, and why we need a different approach. I\'ll show how operational divergences -- well-motivated metrics designed to evaluate estimates -- follow from quantum strictly proper scoring rules. This motivates Bayesian Mean Estimation (BME), and I\'ll show how it fixes most of the problems with MLE. I\'ll conclude with a couple of speculations about the future of quantum state and process estimatio
Quantum Computing with Delocalised Qubits
December 08, 2006

PIRSA:06120041
Quantum Information
TBA
TBA

Sarah Croke University of Glasgow
December 08, 2006

PIRSA:06120040
Quantum Information
TBA

Title	Speaker(s)	Date	Talk Type	Info link
Nonlinear Structure Formation and Apparent Acceleration: An Investigation	Alessio Notari	2007-05-19	Conference	View details
Non-Anthropic Approaches to the String Landscape	G. Watson	2007-05-19	Conference	View details
Large Extra Dimensions and Darkness From String Theory	Fernando Quevedo	2007-05-19	Conference	View details
Explorations in Supersymmetric Large Extra Dimensions	Susha Parameswaran	2007-05-18	Conference	View details
Dark Energy and Neutrino Mass	Urbano Franca	2007-05-18	Conference	View details
Two Topics on the Accelerating Universe	Gregory Gabadadze	2007-05-18	Conference	View details
Dynamics of Linear Perturbations in Modified Gravity Theories	Alessandra Silvestri	2007-05-18	Conference	View details
Embedding Quintessence in Spontaneously Broken N=1 Supergravity	Philippe Brax	2007-05-18	Conference	View details
Dark Energy from variation of the fundamental scale	Christof Wetterich	2007-05-18	Conference	View details
Reliable Quantum State Estimation from Quantum Scoring Rules	Robin Blume-Kohout	2006-12-08	Conference	View details
Quantum Computing with Delocalised Qubits		2006-12-08	Conference	View details
TBA	Sarah Croke	2006-12-08	Conference	View details

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