Your search keyword '"Hsu, Stephen"' showing total 1,661 results

51. Monsters, black holes and the statistical mechanics of gravity

Author

Hsu, Stephen D. H. and Reeb, David

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

We review the construction of monsters in classical general relativity. Monsters have finite ADM mass and surface area, but potentially unbounded entropy. From the curved space perspective they are objects with large proper volume that can be glued on to an asymptotically flat space. At no point is the curvature or energy density required to be large in Planck units, and quantum gravitational effects are, in the conventional effective field theory framework, small everywhere. Since they can have more entropy than a black hole of equal mass, monsters are problematic for certain interpretations of black hole entropy and the AdS/CFT duality. In the second part of the paper we review recent developments in the foundations of statistical mechanics which make use of properties of high-dimensional (Hilbert) spaces. These results primarily depend on kinematics -- essentially, the geometry of Hilbert space -- and are relatively insensitive to dynamics. We discuss how this approach might be adopted as a basis for the statistical mechanics of gravity. Interestingly, monsters and other highly entropic configurations play an important role., Comment: 9 pages, 4 figures, revtex; invited Brief Review to be published in Modern Physics Letters A

Published

2009

52. Life on moduli space?

Author

Hsu, Stephen D. H.

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

While the number of metastable landscape vacua in string theory is vast, the number of supermoduli vacua which lead to distinct low energy physics is even larger, perhaps infinitely so. From the anthropic perspective it is therefore important to understand whether complex life is possible on moduli space -- i.e., in low energy effective theories with 1. exact supersymmetry and 2. some massless multiplets (moduli). Unless life is essentially impossible on moduli space as a consequence of these characteristics, anthropic reasoning in string theory suggests that the overwhelming majority of sentient beings would observe 1-2. We investigate whether 1 and 2 are by themselves automatically inimical to life and conclude, tentatively, that they are not. In particular, we describe moduli scenarios in which complex life seems possible., Comment: Revised version to appear in PRD. Expanded section on supersymmetric bulk matter. 4 pages, revtex

Published

2009

53. Black holes, information and decoherence

Author

Hsu, Stephen D. H. and Reeb, David

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory, Quantum Physics

Abstract

We investigate the experimental capabilities required to test whether black holes destroy information. We show that an experiment capable of illuminating the information puzzle must necessarily be able to detect or manipulate macroscopic superpositions (i.e., Everett branches). Hence, it could also address the fundamental question of decoherence versus wavefunction collapse., Comment: 7 pages, revtex; v2: added discussion of laboratory decoherence experiments, minor changes, final version to be published in Phys. Rev. D

Published

2009

54. Dark radiation as a signature of dark energy

Author

Dutta, Sourish, Hsu, Stephen D. H., Reeb, David, and Scherrer, Robert J.

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

We propose a simple dark energy model with the following properties: the model predicts a late-time dark radiation component that is not ruled out by current observational data, but which produces a distinctive time-dependent equation of state w(z) for z < 3. The dark energy field can be coupled strongly enough to Standard Model particles to be detected in colliders, and the model requires only modest additional particle content and little or no fine-tuning other than a new energy scale of order milli-electron volts., Comment: 6 pages, 5 figures, revtex; v2: footnote 3 added, minor changes, published version

Published

2009

55. Macroscopic Superposition States in Isolated Quantum Systems

Author

Buniy, Roman V. and Hsu, Stephen D. H.

Published

2021

56. Quantum hair during gravitational collapse

Author

Calmet, Xavier, primary, Casadio, Roberto, additional, Hsu, Stephen D. H., additional, and Kuipers, Folkert, additional

Published

2023

57. Quantum Gravitational Effects and Grand Unification

Author

Calmet, Xavier, Hsu, Stephen D. H., and Reeb, David

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

In grand unified theories with large numbers of fields, renormalization effects significantly modify the scale at which quantum gravity becomes strong. This in turn can modify the boundary conditions for coupling constant unification, if higher dimensional operators induced by gravity are taken into consideration. We show that the generic size of, and the uncertainty in, these effects from gravity can be larger than the two-loop corrections typically considered in renormalization group analyses of unification. In some cases, gravitational effects of modest size can render unification impossible., Comment: 3 pages, to appear in the proceedings of 16th International Conference on Supersymmetry and Unification of Fundamental Interactions (SUSY08), Seoul, Korea, June 16-21 2008

Published

2008

58. On the sign problem in dense QCD

Author

Hsu, Stephen D. H. and Reeb, David

Subjects

High Energy Physics - Theory, High Energy Physics - Lattice, High Energy Physics - Phenomenology

Abstract

We investigate the Euclidean path integral formulation of QCD at finite baryon density and temperature. We show that the partition function Z can be written as a difference between two sums Z+ and Z-, each of which defines a partition function with positive weights. We call the sign problem severe if the ratio Z-/Z+ is nonzero in the infinite volume limit. This occurs only if, and generically always if, the associated free energy densities F+ and F- are equal in this limit. We present strong evidence here that the sign problem is severe at almost all points in the phase diagram, with the exception of special cases like exactly zero chemical potential (ordinary QCD), which requires a particular order of limits. Part of our reasoning is based on the analyticity of free energy densities within their open phase regions. Finally, we describe a Monte Carlo technique to simulate finite-density QCD in regions where Z-/Z+ is small., Comment: 8 pages, 2 figures, revtex; major changes in v3; v4: further clarifications, final version to appear in IJMPA

Published

2008

59. Colorful quantum black holes at the LHC

Author

Calmet, Xavier, Gong, Wei, and Hsu, Stephen D. H.

Subjects

High Energy Physics - Phenomenology, General Relativity and Quantum Cosmology, High Energy Physics - Experiment, High Energy Physics - Theory

Abstract

We examine the LHC phenomenology of quantum black holes in models of TeV gravity. By quantum black holes we mean black holes of the smallest masses and entropies, far from the semiclassical regime. These black holes are formed and decay over short distances, and typically carry SU(3) color charges inherited from their parton progenitors. Based on a few minimal assumptions, such as gauge invariance, we identify interesting signatures for quantum black hole decay such as 2 jets, jet + hard photon, jet + missing energy and jet + charged lepton, which should be readily visible above background. The detailed phenomenology depends heavily on whether one requires a Lorentz invariant, low-energy effective field theory description of black hole processes., Comment: 10 pages, to appear in Physics Letters B

Published

2008

60. Grand unification and enhanced quantum gravitational effects

Author

Calmet, Xavier, Hsu, Stephen D. H., and Reeb, David

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

In grand unified theories with large numbers of fields, renormalization effects significantly modify the scale at which quantum gravity becomes strong. This in turn can modify the boundary conditions for coupling constant unification, if higher dimensional operators induced by gravity are taken into consideration. We show that the generic size of these effects from gravity can be larger than the two-loop corrections typically considered in renormalization group analyses of unification. In some cases, gravitational effects of modest size can render unification impossible., Comment: 4 pages, 1 figure, revtex; minor changes in v2 (version published in Phys. Rev. Lett.)

Published

2008

61. Unitarity and the Hilbert space of quantum gravity

Author

Hsu, Stephen D. H. and Reeb, David

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

Under the premises that physics is unitary and black hole evaporation is complete (no remnants, no topology change), there must exist a one-to-one correspondence between states on future null and timelike infinity and on any earlier spacelike Cauchy surface (e.g., slices preceding the formation of the hole). We show that these requirements exclude a large set of semiclassical spacetime configurations from the Hilbert space of quantum gravity. In particular, the highest entropy configurations, which account for almost all of the volume of semiclassical phase space, would not have quantum counterparts, i.e. would not correspond to allowed states in a quantum theory of gravity., Comment: 7 pages, 3 figures, revtex; minor changes in v2 (version published in Class. Quant. Grav.)

Published

2008

62. Quantum gravity at a TeV and the renormalization of Newton's constant

Author

Calmet, Xavier, Hsu, Stephen D. H., and Reeb, David

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

We examine whether renormalization effects can cause Newton's constant to change dramatically with energy, perhaps even reducing the scale of quantum gravity to the TeV region without the introduction of extra dimensions. We examine a model that realizes this possibility and describe experimental signatures from production of small black holes., Comment: 5 pages, 2 figures, revtex; minor changes in v2 (version published in Phys. Rev. D)

Published

2008

63. What is the entropy of the universe?

Author

Frampton, Paul, Hsu, Stephen D. H., Kephart, Thomas W., and Reeb, David

Subjects

High Energy Physics - Theory, Astrophysics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

Standard calculations suggest that the entropy of our universe is dominated by black holes, whose entropy is of order their area in Planck units, although they comprise only a tiny fraction of its total energy. Statistical entropy is the logarithm of the number of microstates consistent with the observed macroscopic properties of a system, hence a measure of uncertainty about its precise state. Therefore, assuming unitarity in black hole evaporation, the standard results suggest that the largest uncertainty in the future quantum state of the universe is due to the Hawking radiation from evaporating black holes. However, the entropy of the matter precursors to astrophysical black holes is enormously less than that given by area entropy. If unitarity relates the future radiation states to the black hole precursor states, then the standard results are highly misleading, at least for an observer that can differentiate the individual states of the Hawking radiation., Comment: 5 pages, 3 figures, 1 table, revtex; v3: revised and expanded version, to appear in Class. Quant. Grav

Published

2008

64. TeV gravity in four dimensions?

Author

Calmet, Xavier and Hsu, Stephen D. H.

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

We describe a model in which the fundamental scale M_\star of the theory which unifies gravity and quantum mechanics is in the TeV range, but without requiring additional spacetime dimensions. The weakness of gravity at low energies is due to a large vacuum expectation of a dilaton like field. The model requires a small dimensionless parameter (the self-coupling of the dilaton) but no fine-tuning. We discuss in detail the dynamical assumptions about nonperturbative quantum gravity required within the model. We observe that M_\star could be quite small, less than a TeV, and that the model could lead to copious strong coupling effects at the LHC. However, semiclassical black holes will not be produced., Comment: 5 pages

Published

2007

65. Long range forces and limits on unparticle interactions

Author

Deshpande, N. G., Hsu, Stephen D. H., and Jiang, Jing

Subjects

High Energy Physics - Phenomenology

Abstract

Couplings between standard model particles and unparticles from a nontrivial scale invariant sector can lead to long range forces. If the forces couple to quantities such as baryon or lepton (electron) number, stringent limits result from tests of the gravitational inverse square law. These limits are much stronger than from collider phenomenology and astrophysics., Comment: 7 pages, revtex; v2 minor changes and added references

Published

2007

66. Black hole entropy, curved space and monsters

Author

Hsu, Stephen D. H. and Reeb, David

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

We investigate the microscopic origin of black hole entropy, in particular the gap between the maximum entropy of ordinary matter and that of black holes. Using curved space, we construct configurations with entropy greater than their area in Planck units. These configurations have pathological properties and we refer to them as monsters. When monsters are excluded we recover the entropy bound on ordinary matter $S < A^{3/4}$. This bound implies that essentially all of the microstates of a semiclassical black hole are associated with the growth of a slightly smaller black hole which absorbs some additional energy. Our results suggest that the area entropy of black holes is the logarithm of the number of distinct ways in which one can form the black hole from ordinary matter and smaller black holes, but only after the exclusion of monster states., Comment: 5 pages, revtex. Final version to appear Physics Letters B

Published

2007

67. Information, information processing and gravity

Author

Hsu, Stephen D. H.

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, Quantum Physics

Abstract

I discuss fundamental limits placed on information and information processing by gravity. Such limits arise because both information and its processing require energy, while gravitational collapse (formation of a horizon or black hole) restricts the amount of energy allowed in a finite region. Specifically, I use a criterion for gravitational collapse called the hoop conjecture. Once the hoop conjecture is assumed a number of results can be obtained directly: the existence of a fundamental uncertainty in spatial distance of order the Planck length, bounds on information (entropy) in a finite region, and a bound on the rate of information processing in a finite region. In the final section I discuss some cosmological issues related to the total amount of information in the universe, and note that almost all detailed aspects of the late universe are determined by the randomness of quantum outcomes. This paper is based on a talk presented at a 2007 Bellairs Research Institute (McGill University) workshop on black holes and quantum information., Comment: 7 pages, 5 figures, revtex

Published

2007

68. Precision cosmological measurements: independent evidence for dark energy

Author

Bothun, Greg, Hsu, Stephen D. H., and Murray, Brian

Subjects

Astrophysics, High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

Using recent precision measurements of cosmological paramters, we re-examine whether these observations alone, independent of type Ia supernova surveys, are sufficient to imply the existence of dark energy. We find that best measurements of the age of the universe $t_0$, the Hubble parameter $H_0$ and the matter fraction $\Omega_m$ strongly favor an equation of state defined by ($w < -1/3$). This result is consistent with the existence of a repulsive, acceleration-causing component of energy if the universe is nearly flat., Comment: 5 pages, revtex, 3 figures. Minor additions. Version to appear in Physics Letters B

Published

2006

69. Spacetime topology change and black hole information

Author

Hsu, Stephen D. H.

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

Topology change -- the creation of a disconnected baby universe -- due to black hole collapse may resolve the information loss paradox. Evolution from an early time Cauchy surface to a final surface which includes a slice of the disconnected region can be unitary and consistent with conventional quantum mechanics. We discuss the issue of cluster decomposition, showing that any violations thereof are likely to be unobservably small. Topology change is similar to the black hole remnant scenario and only requires assumptions about the behavior of quantum gravity in planckian regimes. It does not require non-locality or any modification of low-energy physics., Comment: 5 pages, 5 figures, revtex. Added references to v2. v3 is published version, to appear in Physics Letters B

Published

2006

70. On the volatility of volatility

Author

Hsu, Stephen D. H. and Murray, Brian M.

Subjects

Physics - Physics and Society, Quantitative Finance - Statistical Finance

Abstract

The Chicago Board Options Exchange (CBOE) Volatility Index, VIX, is calculated based on prices of out-of-the-money put and call options on the S&P 500 index (SPX). Sometimes called the "investor fear gauge," the VIX is a measure of the implied volatility of the SPX, and is observed to be correlated with the 30-day realized volatility of the SPX. Changes in the VIX are observed to be negatively correlated with changes in the SPX. However, no significant correlation between changes in the VIX and changes in the 30-day realized volatility of the SPX are observed. We investigate whether this indicates a mispricing of options following large VIX moves, and examine the relation to excess returns from variance swaps., Comment: 15 pages, 12 figures, LaTeX

Published

2006

71. Physical limits on information processing

Author

Hsu, Stephen D. H.

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, Quantum Physics

Abstract

We derive a fundamental upper bound on the rate at which a device can process information (i.e., the number of logical operations per unit time), arising from quantum mechanics and general relativity. In Planck units a device of volume V can execute no more than the cube root of V operations per unit time. We compare this to the rate of information processing performed by nature in the evolution of physical systems, and find a connection to black hole entropy and the holographic principle., Comment: 2 pages, revtex, version to appear in Physics Letters B (reference added)

Published

2006

72. The null energy condition and instability

Author

Buniy, Roman V., Hsu, Stephen D. H., and Murray, Brian M.

Subjects

High Energy Physics - Theory, Astrophysics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

We extend previous work showing that violation of the null energy condition implies instability in a broad class of models, including gauge theories with scalar and fermionic matter as well as any perfect fluid. Simple examples are given to illustrate these results. The role of causality in our results is discussed. Finally, we extend the fluid results to more general systems in thermal equilibrium. When applied to the dark energy, our results imply that w is unlikely to be less than -1., Comment: 11 pages, 5 figures, Revtex

Published

2006

73. Discreteness and the origin of probability in quantum mechanics

Author

Buniy, Roman V., Hsu, Stephen D. H., and Zee, A.

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology, Quantum Physics

Abstract

Attempts to derive the Born rule, either in the Many Worlds or Copenhagen interpretation, are unsatisfactory for systems with only a finite number of degrees of freedom. In the case of Many Worlds this is a serious problem, since its goal is to account for apparent collapse phenomena, including the Born rule for probabilities, assuming only unitary evolution of the wavefunction. For finite number of degrees of freedom, observers on the vast majority of branches would not deduce the Born rule. However, discreteness of the quantum state space, even if extremely tiny, may restore the validity of the usual arguments., Comment: 5 pages, revtex, 1 figure. Revised version, to appear in Physics Letters B. (Small clarifcation, references added.)

Published

2006

74. Thermal gravity, black holes and cosmological entropy

Author

Hsu, Stephen D. H. and Murray, Brian M.

Subjects

High Energy Physics - Theory, Astrophysics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

Taking seriously the interpretation of black hole entropy as the logarithm of the number of microstates, we argue that thermal gravitons may undergo a phase transition to a kind of black hole condensate. The phase transition proceeds via nucleation of black holes at a rate governed by a saddlepoint configuration whose free energy is of order the inverse temperature in Planck units. Whether the universe remains in a low entropy state as opposed to the high entropy black hole condensate depends sensitively on its thermal history. Our results may clarify an old observation of Penrose regarding the very low entropy state of the universe., Comment: 5 pages, 2 figures, RevTex. v4: to appear in Phys. Rev. D

Published

2005

75. Minimum Length from First Principles

Author

Calmet, Xavier, Graesser, Michael, and Hsu, Stephen D. H.

Subjects

High Energy Physics - Theory

Abstract

We show that no device or gedanken experiment is capable of measuring a distance less than the Planck length. By "measuring a distance less than the Planck length" we mean, technically, resolve the eigenvalues of the position operator to within that accuracy. The only assumptions in our argument are causality, the uncertainty principle from quantum mechanics and a dynamical criteria for gravitational collapse from classical general relativity called the hoop conjecture. The inability of any gedanken experiment to measure a sub-Planckian distance suggests the existence of a minimal length., Comment: 8 pages, Honorable Mention in the 2005 Gravity Research Foundation Essay Competition

Published

2005

76. Semi-classical wormholes and time machines are unstable

Author

Buniy, Roman V. and Hsu, Stephen D. H.

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

We show that Lorentzian (traversable) wormholes and time machines with semi-classical spacetimes are unstable due to their violation of the null energy condition (NEC). Semi-classicality of the energy-momentum tensor in a given quantum state (required for semi-classicality of the spacetime) implies localization of its wavefunction in phase space, leading to evolution according to the classical equations of motion. Previous results related to violation of the NEC then require that the configuration is unstable to small perturbations., Comment: 3 pages, 1 figure, revtex

Published

2005

77. Instabilities and the null energy condition

Author

Buniy, Roman V. and Hsu, Stephen D. H.

Subjects

High Energy Physics - Theory, Astrophysics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

We show that violation of the null energy condition implies instability in a broad class of models, including classical gauge theories with scalar and fermionic matter as well as any perfect fluid. When applied to the dark energy, our results imply that $w = p / \rho$ is unlikely to be less than -1., Comment: 5 pages, 1 figure, revtex, presentation improved, minor changes

Published

2005

78. Complex-Trait Prediction in the Era of Big Data

Author

de los Campos, Gustavo, Vazquez, Ana Ines, Hsu, Stephen, and Lello, Louis

Published

2018

79. Opening the Window for Technicolor

Author

Hong, Deog Ki, Hsu, Stephen D. H., and Sannino, Francesco

Subjects

High Energy Physics - Phenomenology

Abstract

Recently a new class of technicolor models are proposed, using technifermions of symmetric second-rank tensor. In the models, one can make reasonable estimates of physical quantities like the Higgs mass and the size of oblique corrections, using a correspondence to super Yang-Mills theory in the Corrigan-Ramond limit. The models predict a surprisingly light Higgs of mass, $m_H=150\sim 500 {\rm GeV}$ and have naturally small $S$ parameter., Comment: 5 pages, to appear in PASCOS04 proceedings; minor changes in context and in references

Published

2004

80. Lightsheets, Branes and the Covariant Entropy Bound

Author

Hong, Deog Ki and Hsu, Stephen D. H.

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

We investigate the geometry of lightsheets comprised of null geodesics near a brane. Null geodesics which begin parallel to a brane a distance d away are typically gravitationally bound to the brane, so that the maximum distance from the geodesic to the brane never exceeds d. The geometry of resulting lightsheets is similar to that of the brane if one coarse grains over distances of order d. We discuss the implications for the covariant entropy bound applied to brane worlds., Comment: 7 pages, 4 figures

Published

2004

81. Anthropic Distribution for Cosmological Constant and Primordial Density Perturbations

Author

Graesser, Michael L., Hsu, Stephen D. H., Jenkins, Alejandro, and Wise, Mark B.

Subjects

High Energy Physics - Theory, Astrophysics, General Relativity and Quantum Cosmology

Abstract

The anthropic principle has been proposed as an explanation for the observed value of the cosmological constant. Here we revisit this proposal by allowing for variation between universes in the amplitude of the scale-invariant primordial cosmological density perturbations. We derive a priori probability distributions for this amplitude from toy inflationary models in which the parameter of the inflaton potential is smoothly distributed over possible universes. We find that for such probability distributions, the likelihood that we live in a typical, anthropically-allowed universe is generally quite small., Comment: 12 pages, 2 tables. v3: Replaced to match published version (minor corrections of form)

Published

2004

82. Gradient instability for w < -1

Author

Hsu, Stephen D. H., Jenkins, Alejandro, and Wise, Mark B.

Subjects

Astrophysics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

We show that in single scalar field models of the dark energy with equations of state satisfying $w \equiv p / \rho < -1$, the effective Lagrangian for fluctuations about the homogeneous background has a wrong sign spatial kinetic term. In most cases, spatial gradients are ruled out by microwave background observations. The sign of $w+1$ is not connected to the sign of the time derivative kinetic term in the effective Lagrangian., Comment: revtex4, 8 pages, 1 figure. v2: corrected typo in Eq. 16, added references and a paragraph on quintessence models; v3: reordering of references. To appear in Phys. Lett. B

Published

2004

83. Minimum Length from Quantum Mechanics and Classical General Relativity

Author

Calmet, Xavier, Graesser, Michael, and Hsu, Stephen D. H.

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, Quantum Physics

Abstract

We derive fundamental limits on measurements of position, arising from quantum mechanics and classical general relativity. First, we show that any primitive probe or target used in an experiment must be larger than the Planck length, $l_P$. This suggests a Planck-size {\it minimum ball} of uncertainty in any measurement. Next, we study interferometers (such as LIGO) whose precision is much finer than the size of any individual components and hence are not obviously limited by the minimum ball. Nevertheless, we deduce a fundamental limit on their accuracy of order $l_P$. Our results imply a {\it device independent} limit on possible position measurements., Comment: 8 pages, latex, to appear in the Physical Review Letters

Published

2004

84. Entropy Bounds and Dark Energy

Author

Hsu, Stephen D. H.

Subjects

High Energy Physics - Theory, Astrophysics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

Entropy bounds render quantum corrections to the cosmological constant $\Lambda$ finite. Under certain assumptions, the natural value of $\Lambda$ is of order the observed dark energy density $\sim 10^{-10} {\rm eV}^4$, thereby resolving the cosmological constant problem. We note that the dark energy equation of state in these scenarios is $w \equiv p / \rho = 0$ over cosmological distances, and is strongly disfavored by observational data. Alternatively, $\Lambda$ in these scenarios might account for the diffuse dark matter component of the cosmological energy density., Comment: 6 pages, Latex. Added discussion of non-cosmological limits on holographic dark energy. Version to appear in Physics Letters B

Published

2004

85. Brane World Confronts Holography

Author

Hong, Deog Ki and Hsu, Stephen D. H.

Subjects

High Energy Physics - Theory

Abstract

Holography principle imposes a stringent constraint on the scale of quantum gravity $M_*$ in brane-world scenarios, where all matter is confined on the brane. The thermodynamic entropy of astrophysical black holes and sub-horizon volumes during big bang nucleosynthesis exceed the relevant bounds unless $M_* > 10^{(4-6)}$ TeV, so a hierarchy relative to the weak scale is unavoidable. We discuss the implications for extra dimensions as well as holography., Comment: 5 pages, 5 figures, revtex 4, Talk by DKH at 2nd International Conference on Flavor Physics (ICFP 2003), Seoul, Korea, 6-11 Oct 2003

Published

2004

86. Positivity and Fermionic Dense Matter

Author

Hong, Deog Ki and Hsu, Stephen D. H.

Subjects

High Energy Physics - Lattice, High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

Euclidean dense matter generically suffers from the fermion sign problem. However, we argue that the sign problem is absent if one considers only low-energy degrees of freedom. Specifically, the low energy effective theory of dense QCD has positive Euclidean path integral measure, which allows one to establish rigorous inequalities showing that the color-flavor locked (CFL) phase is the true vacuum of three flavor, massless QCD. We then describe a method for simulating dense QCD on the lattice. We also discuss applications to electronic systems in condensed matter, such as generalized Hubbard models., Comment: Lattice03 (nonzero), 3pages, 1 figure, Proceedings for Lattice 2003, July 2003, Tsukuba, Japan

Published

2003

87. Holography, Entropy and Extra Dimensions

Author

Hong, Deog Ki and Hsu, Stephen D. H.

Subjects

High Energy Physics - Phenomenology, General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

We show that higher dimensional models (brane worlds) in which the scale of quantum gravity $M_*$ is much smaller than the apparent scale $M_P \sim 10^{19}$ GeV are in conflict with bounds arising from holography and black hole entropy. The thermodynamic entropy of astrophysical black holes and sub-horizon volumes during big bang nucleosynthesis exceed the relevant bounds unless $M_* > 10^{(4-6)}$ TeV, so a hierarchy relative to the weak scale is unavoidable. We discuss the implications for extra dimensions as well as holography., Comment: 9 pages, LaTeX; Clarified use of covariant bound and corrected geometry of ADD black holes. Main conclusions unchanged. To appear in PLB

Published

2003

88. Cosmology of Nonlinear Oscillations

Author

Hsu, Stephen D. H.

Subjects

Astrophysics, High Energy Physics - Phenomenology

Abstract

The nonlinear oscillations of a scalar field are shown to have cosmological equations of state with $w = p / \rho$ ranging from $-1 < w < 1$. We investigate the possibility that the dark energy is due to such oscillations., Comment: 5 pages, latex. References added; to appear in PLB

Published

2003

89. Positivity and Dense Matter

Author

Hong, Deog Ki and Hsu, Stephen D. H.

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Lattice, High Energy Physics - Theory

Abstract

We elaborate on previous results concerning the positivity of the Euclidean path integral measure for low-energy modes in dense fermionic matter. We show that the sign problem usually associated with fermions is absent if one considers only low-energy degrees of freedom. We describe a method for simulating dense QCD on the lattice and give a proof using rigorous inequalities that the color-flavor locked (CFL) phase is the true vacuum of three flavor, massless QCD. We also discuss applications to electronic systems in condensed matter, such as generalized Hubbard models., Comment: 17 pages, no figure, RevTex4, minor changes, To appear in PRD, more discussions on kaon condensation added

Published

2003

90. High Temperature Superfluid and Feshbach Resonance

Author

Hong, Deog Ki and Hsu, Stephen D. H.

Subjects

Condensed Matter, High Energy Physics - Phenomenology, Nuclear Theory

Abstract

We study an effective field theory describing cold fermionic atoms near a Feshbach resonance. The theory gives a unique description of the dynamics in the limit that the energy of the Feshbach resonance is tuned to be twice that of the Fermi surface. We show that in this limit the zero temperature superfluid condensate is of order the Fermi energy, and obtain a critical temperature $T_C \simeq 0.43 T_F$, Comment: 9 pages, 3 figures, RevTex

Published

2003

91. On the Intrinsic Parity of Black Holes

Author

Hsu, Stephen D. H.

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

We investigate the intrinsic parity of black holes. It appears that discrete symmetries require the black hole Hilbert space to be larger than suggested by the usual quantum numbers M (mass), Q (charge) and J (angular momentum). Recent results on black hole production in trans-Planckian scattering lead to gravitational effects which do not decouple from low-energy physics. Dispersion relations incorporating these effects imply that the semi-classical black hole spectrum is similar in parity even and odd channels. This result can be generalized to other discrete and continuous symmetries., Comment: 10 pages, Latex. Slightly revised version to appear in Physics Letters B

Published

2002

92. Quantum Production of Black Holes

Author

Hsu, Stephen D. H.

Subjects

High Energy Physics - Phenomenology, General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

We give a path integral expression for the quantum amplitude to produce a black hole from particle collisions. When expanded about an appropriate classical solution it yields the leading order contribution to the production amplitude in a curvature expansion. Classical solutions describing black hole production resulting from two particle scattering at non-zero impact parameter, combined with our formalism, indicate a geometric cross section for the quantum process. In TeV gravity scenarios these solutions may exhibit large curvatures, but (modulo a mild assumption about quantum gravity) corrections to the semi-classical cross section are small., Comment: 10 pages, latex; Minor revisions, to appear in Physics Letters B

Published

2002

93. Positivity of High Density Effective Theory

Author

Hong, Deog Ki and Hsu, Stephen D. H.

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Lattice, High Energy Physics - Theory, Nuclear Theory

Abstract

We show that the effective field theory of low energy modes in dense QCD has positive Euclidean path integral measure. The complexity of the measure of QCD at finite chemical potential can be ascribed to modes which are irrelevant to the dynamics at sufficiently high density. Rigorous inequalities follow at asymptotic density. Lattice simulation of dense QCD should be possible using the quark determinant calculated in the effective theory., Comment: 10 pages, Revised version, to appear in Rapid Communications of Physical Review D

Published

2002

94. The QCD Phase Diagram and Explosive Astrophysics

Author

Hsu, Stephen D. H.

Subjects

High Energy Physics - Phenomenology, Astrophysics

Abstract

I give a brief overview of our current understanding of the QCD phase diagram at finite temperature and baryon density. I emphasize phase transitions which occur at high density and low temperature (relative to the QCD scale), such as transition(s) to the color superconducting and chirally symmetric phases. These transitions might occur during violent astrophysical activity such as type II supernovae core bounce or neutron star mergers, and I discuss the possible consequences., Comment: 12 pages, 3 figures, invited lecture at Compact Stars in the QCD Phase Diagram held in Copenhagen (NORDITA and Niels Bohr Institute), 15-18 August, 2001

Published

2001

95. Supernovae, Hypernovae and Color Superconductivity

Author

Hong, Deog Ki, Hsu, Stephen D. H., and Sannino, Francesco

Subjects

High Energy Physics - Phenomenology, Astrophysics, Nuclear Theory

Abstract

We argue that Color Superconductivity (CSC, Cooper pairing in quark matter leading to the breaking of SU(3) color symmetry) may play a role in triggering the explosive endpoint of stellar evolution in massive stars (M > 8 M_{\odot}). We show that the binding energy release in the transition of a sub-core region to the CSC phase can be of the same order of magnitude as the gravitational binding energy release from core collapse. The core temperature during collapse is likely below the critical temperature for CSC, and the transition is first order, proceeding on Fermi timescales when the pressure reaches a critical value of several times nuclear density. We also discuss the implications for hypernova events with total ejecta energy of 10-100 times that of type II supernova., Comment: 8 pages, LaTeX

Published

2001

96. Color Superconductivity in High Density Quark Matter

Author

Hsu, Stephen D. H.

Subjects

High Energy Physics - Phenomenology

Abstract

We review recent progress on the phenomena of color superconductivity in high density quark matter. We begin with a brief overview of the unique aspects of physics near a Fermi surface and the implications for renormalization group (RG) techniques. We next discuss the qualitative differences between asymptotic densities, where the effective coupling constant can be made arbitrarily small, and intermediate densities where quark matter is still strongly coupled. It is in the latter regime where RG techniques are particularly useful, in that they yield a generic description of possible behaviors without relying on an expansion in the strong coupling constant. Finally, we discuss aspects of the QCD groundstate at asymptotic densities, which can be determined in a systematic weak coupling expansion., Comment: 16 pages, 7 figures, latex, contribution to TMU-Yale Symposium on Dynamics of Gauge Fields

Published

2000

97. Particle Multiplicities and Thermalization in High Energy Collisions

Author

Hormuzdiar, James, Hsu, Stephen D. H., and Mahlon, Gregory

Subjects

Nuclear Theory, High Energy Physics - Phenomenology

Abstract

We investigate the conditions under which particle multiplicities in high energy collisions are Boltzmann distributed, as is the case for hadron production in e^+e^-, pp, p-pbar and heavy ion collisions. We show that the apparent temperature governing this distribution does not necessarily imply equilibrium (thermal or chemical) in the usual sense, as we explain. We discuss an explicit example using tree level amplitudes for N photon production in which a Boltzmann-like distribution is obtained without any equilibration. We argue that the failure of statistical techniques based on free particle ensembles may provide a signal for collective phenomena (such as large shifts in masses and widths of resonances) related to the QCD phase transition., Comment: 12 pages, 2 figures; Revised version to appear in IJMPE. References added, including to previous work by C.N. Yang et al

Published

2000

98. On the QCD Ground State at High Density

Author

Evans, Nick, Hormuzdiar, James, Hsu, Stephen D. H., and Schwetz, Myck

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

We investigate the possible ground states of QCD at asymptotic densities, where the theory is expected to exhibit color superconductivity. We characterize the color-flavor structure of possible diquark condensates, and find those that are energy extrema by solving the weak-coupling Dyson-Schwinger equations, including Landau damping and the Meissner effect. We show that, as previously anticipated, in the two flavor case the vacuum breaks SU(3) color to SU(2) and in the three flavor case the vacua with color-flavor locking (CFL) have the lowest energy. We identify a number of relatively flat directions in the potential along which the pattern of gauge symmetry breaking changes and parity is violated. We discuss possible phenomenological consequences of our results., Comment: 16 pages, LaTeX, 6 postscript figures

Published

1999

99. Magnetic Interactions, the Renormalization Group and Color Superconductivity in High Density QCD

Author

Hsu, Stephen D. H. and Schwetz, Myckola

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

We investigate the effect of long range magnetic interactions on the renormalization group (RG) evolution of local Cooper pairing interactions near the Fermi surface in high density QCD. We use an explicit cut-off on momentum modes, with special emphasis on screening effects such as Landau damping, to derive the RG equations in a gauge invariant, weak coupling expansion. We obtain the Landau pole $\Delta \sim \mu g^{-5} \exp(- \frac{3 \pi^2}{\sqrt{2} g})$, although the structure of our equations differs from previous results. We also investigate the gap equation, including condensates of higher angular momentum. We show that rotational invariance is unbroken at asymptotically high density, and verify that $\Delta$ is the correct value of the gap when higher modes are included in the analysis., Comment: 17 pages, 3 figures, latex

Published

1999

100. On Spherically Symmetric Breathers in Scalar Theories

Author

Hormuzdiar, James N. and Hsu, Stephen D. H.

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology, Nuclear Theory

Abstract

We develop an algorithm which can be used to exclude the existence of classical breathers (periodic finite energy solutions) in scalar field theories, and apply it to several cases of interest. In particular, the technique is used to show that a pair of potentially periodic solutions of the 3+1 Sine-Gordon Lagrangian, found numerically in earlier work, are not breathers. These ``pseudo-breather states'' do have a signature in our method, which we suggest can be used to find similar quasi-bound state configurations in other theories. We also discuss the results of our algorithm when applied to the 1+1 Sine-Gordon model (which exhibits a well-known set of breathers), and $\phi ^4$ theory., Comment: 14 Pages, 6 figures, Latex

Published

1999