Your search keyword '"Chen, Pisin"' showing total 1,140 results

151. Landau Damping of Baryon Structure Formation in the Post Reionization Epoch

Author

Chang, Feng-Yin and Chen, Pisin

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

It has been suggested by Chen and Lai that the proper description of the large scale structure formation of the universe in the post-reionization era, which is conventionally characterized via gas hydrodynamics, should include the plasma collective effects in the formulation. Specifically, it is the combined pressure from the baryon thermal motions and the residual long-range electrostatic potentials resulted from the imperfect Debye shielding, that fights against the gravitational collapse. As a result, at small-scales the baryons would oscillate at the ion-acoustic, instead of the conventional neutral acoustic, frequency. In this paper we extend and improve the Chen-Lai formulation with the attention to the Landau damping of the ion-acoustic oscillations. Since T_e \sim T_i in the post-reionization era, the ion acoustic oscillations would inevitably suffer the Landau damping which severely suppresses the baryon density spectrum in the regimes of intermediate and high wavenumber k. To describe this Landau-damping phenomenon more appropriately, we find it necessary to modify the filtering wavenumber k_f in our analysis. It would be interesting if our predicted Landau damping of the ion-acoustic oscillations can be observed at high redshifts., Comment: 5 pages

Published

2010

152. Cosmological Behavior of a Parity and Charge-Parity Violating Varying Alpha Theory

Author

Maity, Debaprasad and Chen, Pisin

Subjects

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

Abstract

In this report we construct a phenomenological model in which the time variation of the fine structure constant, $\alpha$, is induced by a parity and charge-parity (PCP) violating interaction. Such a PCP violation in the photon sector has a distinct physical origin from that in the conventional models of this kind. We calculate the cosmological birefringence so induced in our model and show that it in turn produces a new non-vanishing multipole moment correlation between the temperature and the polarization anisotropies in the CMB spectrum. We have also calculated the amount of optical rotation due to a strong background magnetic field and the effect of our new PCP violating term on the variation of $\alpha$ during the cosmic evolution. We found that only in the radiation dominated era can the contribution of the new PCP violating term to the variation of $\alpha$ be non-vanishing., Comment: 20 pages, No figure, Matched with the published version

Published

2010

153. A Naturally Minute Quantum Correction to the Cosmological Constant Descended from the Hierarchy

Author

Shao, Shu-Heng and Chen, Pisin

Subjects

High Energy Physics - Theory, Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

We demonstrate that an extremely small but positive quantum correction, or the Casimir energy, to the cosmological constant can arise from a massive bulk fermion field in the Randall-Sundrum model. Specifically, a cosmological constant doubly descended from the Planck-electroweak hierarchy and as minute as the observed dark energy scale can be naturally achieved without fine-tuning of the bulk fermion mass. To ensure the stabilization of the system, we discuss two stabilization mechanisms under this setup. It is found that the Goldberger-Wise mechanism can be successfully introduced in the presence of a massive bulk fermion, without spoiling the smallness of the quantum correction., Comment: 5 pages

Published

2010

154. Gauge Theory of Gravity with de Sitter Symmetry as a Solution to the Cosmological Constant Problem and the Dark Energy Puzzle

Author

Chen, Pisin

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

We propose a solution to the longstanding cosmological constant (CC) problem which is based on the fusion of two existing concepts. The first is the suggestion that the proper description of classical gravitational effects is the gauge theory of gravity in which the connection instead of the metric acts as the dynamical variable. The resulting field equation does not then contain the CC term. This removes the connection between the CC and the quantum vacuum energy, and therefore addresses the {\it old} CC problem of why quantum vacuum energy does not gravitate. The CC-equivalent in this approach arises from the constant of integration when reducing the field equation to the Einstein equation. The second is the assumption that the universe obeys de Sitter symmetry, with the observed accelerating expansion as its manifestation. We combine these ideas and identify the constant of integration with the inverse-square of the radius of curvature of the de Sitter space. The origin of dark energy (DE) is therefore associated with the inherent spacetime geometry, with the smallness of DE protected by symmetry. This addresses the {\it new} CC problem, or the DE puzzle. This approach, however, faces major challenges from quantum considerations. These are the ghost problem associated with higher order gravity theories and the quantum instability of the de Sitter spacetime. We discuss their possible remedies., Comment: 8 pages

Published

2010

155. Simulation of the Event Reconstruction of Ultra High Energy Cosmic Neutrinos with Askaryan Radio Array

Author

Sun, Shang-Yu, Chen, Pisin, and Huang, Melin

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

Askaryan Radio Array (ARA), a large-scale radio Cherenkov observatory which scientists propose to develop in Antarctica, aims at discovering the origin and evolution of the cosmic accelerators that produce the highest energy cosmic rays by means of observing the ultra high energy (UHE) cosmogenic neutrinos. To optimize ARA's angular resolution of the incoming UHE neutrinos, which is essential for pointing pack to its source, the relation between the reconstruction capabilities of ARA and its design is studied. It is found that with the noise effect taken into account, in order to make this neutrino angular resolution as good as possible and detection efficiency as high as possible, the optimal choice for ARA geometry would be the station spacing of 1.6 km and the antenna spacing of 40 m., Comment: 7 pages, 12 figures, presented at the CosPA Symposium, Melbourne, Australia, November 2009

Published

2010

156. A GPU-based Calculation Method for Near Field Effects of Cherenkov Radiation Induced by Ultra High Energy Cosmic Neutrinos

Author

Hu, Chia-Yu, Chen, Chih-Ching, and Chen, Pisin

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

The radio approach for detecting the ultra-high energy cosmic neutrinos has become a mature field. The Cherenkov signals in radio detection are originated from the charge excess of particle showers due to Askaryan effect. The conventional way of calculating the Cherenkov pulses by making Fraunhofer approximation fails when the sizes of the elongated showers become comparable with the detection distances. We present a calculation method of Cherenkov pulses based on the finite-difference time-domain (FDTD) method, and attain a satisfying effeciency via the GPU- acceleration. Our method provides a straightforward way of the near field calculation, which would be important for ultra high energy particle showers, especailly the electromagnetic showers induced by the high energy leptons produced in the neutrino charge current interactions., Comment: 8 pages, 9 figures, presented at the CosPA Symposium, Melbourne, Australia, November 2009

Published

2010

157. Gravitomagnetism in Quantum Mechanics

Author

Adler, Ronald J. and Chen, Pisin

Subjects

General Relativity and Quantum Cosmology, Quantum Physics

Abstract

We give a systematic treatment of the quantum mechanics of a spin zero particle in a combined electromagnetic field and a weak gravitational field, which is produced by a slow moving matter source. The analysis is based on the Klein-Gordon equation expressed in generally covariant form and coupled minimally to the electromagnetic field. The Klein-Gordon equation is recast into Schroedinger equation form (SEF), which we then analyze in the non-relativistic limit. We include a discussion of some rather general observable physical effects implied by the SEF, concentrating on gravitomagnetism. Of particular interest is the interaction of the orbital angular momentum of the particle with the gravitomagnetic field., Comment: 9 pages

Published

2009

158. The UFFO (Ultra-Fast Flash Observatory) Pathfinder

Author

Park, I. H., Grossan, B., Lim, H., Nam, J. W., Chen, Pisin, Khrenov, B. A., Kim, Y. -K., Lee, C. -H., Lee, J., Linder, E. V., Panasyuk, M., Park, J. H., Smoot, G. F., and Uhm, Z. L.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Hundreds of gamma-ray burst (GRB) UV-optical light curves have been measured since the discovery of optical afterglows, however, even after nearly 5 years of operation of the SWIFT observatory, only a handful of measurements have been made soon (within a minute) after the gamma ray signal. This lack of early observations fails to address burst physics at the short time scales associated with burst events and progenitors. Because of this lack of sub-minute data, the characteristics of the UV-optical light curve of short-hard type GRB and rapid-rising GRB, which may account for ~30% of all GRB, remain practically unknown. We have developed methods for reaching the sub-minute and the sub-second timescales in a small spacecraft observatory appropriate for launch on a microsatellite. Rather than slewing the entire spacecraft to aim the UV-optical instrument at the GRB position, we use rapidly moving mirrors to redirect our optical beam. Our collaboration has produced a unique MEMS (microelectromechanical systems) micromirror array which can point and settle on target in only 1 ms. This technology is proven, flying successfully as the MTEL (MEMS Telescope for Extreme Lightning) on the Tatiana-2 Spacecraft in September 2009 and as the KAMTEL on the International Space Station in April 2008. The sub-minute measurements of the UV-optical emission of dozens of GRB each year will result in a more rigorous test of current internal shock models, probe the extremes of bulk Lorentz factors, and provide the first early and detailed measurements of fast-rise and short type GRB UV-optical light curves., Comment: 17 pages, 10 figures, 3 tables

Published

2009

159. Comment on 'w and w' of scalar field models of dark energy' [arXiv:astro-ph/0510598]

Author

Chen, Chien-Wen, Gu, Je-An, and Chen, Pisin

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

We comment on the calculation mistake in the paper "w and w' of scalar field models of dark energy" by Takeshi Chiba [arXiv:astro-ph/0510598], where w is the dark energy equation of state and w' is the time derivative of w in units of the Hubble time. The author made a mistake while rewriting the phantom equation of motion, which led to an incorrect generic bound for the phantom model and an incorrect bound for the tracker phantom model on the w-w' plane., Comment: 3 pages, 2 figures

Published

2009

160. Stress-Energy Tensor Induced by Bulk Dirac Spinor in Randall-Sundrum Model

Author

Shao, Shu-heng, Chen, Pisin, and Gu, Je-An

Subjects

High Energy Physics - Theory, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Motivated by the possible extension into a supersymmetric Randall-Sundrum (RS) model, we investigate the properties of the vacuum expectation value (VEV) of the stress-energy tensor for a quantized bulk Dirac spinor field in the RS geometry and compare it with that for a real scalar field. This is carried out via the Green function method based on first principles without invoking the degeneracy factor, whose validity in a warp geometry is a priori unassured. In addition, we investigate the local behavior of the Casimir energy near the two branes. One salient feature we found is that the surface divergences near the two branes have opposite signs. We argue that this is a generic feature of the fermionic Casimir energy density due to its parity transformation in the fifth dimension. Furthermore, we investigate the self-consistency of the RS metric under the quantum correction due to the stress-energy tensor. It is shown that the VEV of the stress-energy tensor and the classical one become comparable near the visible brane if k ~ M ~ M_Pl (the requirement of no hierarchy problem), where k is the curvature of the RS warped geometry and M the 5-dimensional Planck mass. In that case the self-consistency of RS model that includes bulk fields is in doubt. If, however, k <~ M, then an approximate self-consistency of the RS-type metric may still be satisfied., Comment: 7 pages with 2 figures

Published

2009

161. Quantum Vacuum Structure and Cosmology

Author

Rafelski, Johann, Labun, Lance, Hadad, Yaron, and Chen, Pisin

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

Short review of riddles that lie at the intersection of quantum theory, particle physics and cosmology; dark energy as false vacuum; discussion of a possible detection experiment., Comment: 8p, lecture at the Tenth Workshop on Non-Perturbative Quantum Chromodynamics held at l'Institut Astrophysique de Paris June 8-12, 2009

Published

2009

162. Constraints on the Phase Plane of the Dark Energy Equation of State

Author

Chen, Chien-Wen, Chen, Pisin, and Gu, Je-An

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

Classification of dark energy models in the plane of w and w', where w is the dark energy equation of state and w' its time-derivative in units of the Hubble time, has been studied in the literature. We take the current SN Ia, CMB and BAO data, invoke a widely used parametrization of the dark energy equation of state, and obtain the constraints on the w -w' plane. We find that dark energy models including the cosmological constant, phantom, non-phantom barotropic fluids, and monotonic up-rolling quintessence are ruled out at the 68.3% confidence level based on the current observational data. Down-rolling quintessence, including the thawing and the freezing models, is consistent with the current observations. All the above-mentioned models are still consistent with the data at the 95.4% confidence level., Comment: 14 pages, 5 figures, "Test of the method" added in Sec. 4 in v2

Published

2009

163. Comments on 'Modeling Galaxy Halos Using Dark Matter with Pressure'

Author

Su, Kung-Yi and Chen, Pisin

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics, Astrophysics - Galaxy Astrophysics

Abstract

We comment on the calculational mistake in the paper "Modeling galaxy halos using dark matter with pressure" by Somnath Bharadwaj and Sayan Kar. The authors made a mistake while calculating the metric, which led to an overestimate of the deflection angle of light passing through the halos for -10 should not exist. Although the Bharadwaj-Kar solution should be corrected, it appears that the characteristics of the deflection angle under the supposed non-conventional non-ideal fluid equation of state for the dark matter halo remain sensitive to the impact parameter and may be verifiable through observations., Comment: 3 pages, 2 figures

Published

2009

164. Consistency Test of Dark Energy Models

Author

Chen, Chien-Wen, Gu, Je-An, and Chen, Pisin

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics

Abstract

Recently we proposed a new approach to the testing of dark energy models based on the observational data. In that work we focused particularly on quintessence models for demonstration and invoked a widely used parametrization of the dark energy equation of state. In this paper we take the more recent SN Ia, CMB and BAO data, invoke the same parametrization, and apply this method of consistency test to five categories of dark energy models, including the LCDM model, the generalized Chaplygin gas, and three quintessence models: exponential, power-law and inverse-exponential potentials. We find that the exponential potential of quintessence is ruled out at the 95.4% confidence level, while the other four models are consistent with data. This consistency test can be efficiently performed since for all models it requires the constraint of only a single parameter space that by choice can be easily accessed., Comment: 13 pages, 2 fifgures, new data set used in the revised version

Published

2009

165. Origin and evolution of cosmic accelerators - the unique discovery potential of an UHE neutrino telescope: Astronomy Decadal Survey (2010-2020) Science White Paper

Author

Chen, Pisin and Hoffman, K. D.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

One of the most tantalizing questions in astronomy and astrophysics, namely the origin and the evolution of the cosmic accelerators that produce the highest energy cosmic rays (UHECR), may be best addressed through the observation of ultra high energy (UHE) cosmogenic neutrinos. Neutrinos travel from their source undeflected by magnetic fields and unimpeded by interactions with the cosmic microwave background. At high energies, neutrinos could be detected in dense, radio frequency (RF) transparent media via the Askaryan effect. The abundant cold ice covering the geographic South Pole, with its exceptional RF clarity, has been host to several pioneering efforts to develop this approach, including RICE and ANITA. Building on the expertise gained in these efforts, and the infrastructure developed in the construction of the IceCube optical Cherenkov observatory, a low-cost array of radio frequency antenna stations could be deployed near the Pole to efficiently detect a significant number of UHE neutrinos with degree scale angular resolution within the next decade. Such an array, if installed in close proximity to IceCube, could allow cross-calibration on a small but invaluable subset of neutrino events detected by both the optical and radio methods. In addition to providing critical information in the identification of the source of UHECRs, such an observatory could also provide a unique probe of long baseline high energy neutrino interactions unattainable in any man-made neutrino beam., Comment: 7 pages, 3 figures, submitted to US Astronomy Decadal Survey (2010-2020)

Published

2009

166. In-vacuum post-compression of optical probe pulse for relativistic plasma diagnostics

Author

Lorenz, Sebastian, primary, Grittani, Gabriele Maria, primary, Kondo, Kotaro, primary, Kon, Akira, primary, Liu, Yung-Kun, primary, Sagisaka, Akito, primary, Ogura, Koichi, primary, Nakanii, Nobuhiko, primary, Huang, Kai, primary, Bierwage, Andreas, primary, Namba, Shinichi, primary, Ohiro, Hikari, primary, Pikuz, Tatiana, primary, Koga, James, primary, Chen, Pisin, primary, Kiriyama, Hiromitsu, primary, kando, masaki, primary, Esirkepov, Timur, primary, Bulanov, Sergei, primary, and Pirozhkov, Alexander, primary

Published

2023

167. A New Type of Plasma Wakefield Accelerator Driven by Magnetowaves

Author

Chen, Pisin, Chang, Feng-Yin, Lin, Guey-Lin, Noble, Robert J., and Sydora, Richard

Subjects

Physics - Accelerator Physics, Physics - Plasma Physics

Abstract

We present a new concept for a plasma wakefield accelerator driven by magnetowaves (MPWA). This concept was originally proposed as a viable mechanism for the "cosmic accelerator" that would accelerate cosmic particles to ultra high energies in the astrophysical setting. Unlike the more familiar Plasma Wakefield Accelerator (PWFA) and the Laser Wakefield Accelerator (LWFA) where the drivers, the charged-particle beam and the laser, are independently existing entities, MPWA invokes the high-frequency and high-speed whistler mode as the driver, which is a medium wave that cannot exist outside of the plasma. Aside from the difference in drivers, the underlying mechanism that excites the plasma wakefield via the ponderomotive potential is common. Our computer simulations show that under appropriate conditions, the plasma wakefield maintains very high coherence and can sustain high-gradient acceleration over many plasma wavelengths. We suggest that in addition to its celestial application, the MPWA concept can also be of terrestrial utility. A proof-of-principle experiment on MPWA would benefit both terrestrial and celestial accelerator concepts., Comment: revtex4, 4 pages, 6 figures

Published

2008

168. Ultra High Energy Cosmic Ray Puzzle and the Plasma Wakefield Acceleration

Author

Chang, Feng-Yin, Chen, Pisin, Lin, Guey-Lin, Noble, Robert J., Reil, Kevin, and Sydora, Richard

Subjects

Astrophysics

Abstract

Magnetowave induced plasma wakefield acceleration (MPWA) in a relativistic astrophysical outflow has been proposed as a viable mechanism for the acceleration of cosmic particles to ultra high energies. Here we present simulation results that demonstrate the viability of this mechanism. We invoke the high frequency and high speed whistler mode for the driving pulse. The plasma wakefield so induced validates precisely the theoretical prediction. This mechanism is shown capable of accelerating charged particles to ZeV energies in Active Galactic Nuclei (AGN)., Comment: Talk presented by G.-L. Lin at Challenges in Particle Astrophysics, XXth RENCONTRES DE BLOIS,18th-23rd May 2008

Published

2008

169. Influence of Plasma Collective Effects on Cosmological Evolution

Author

Lai, Kwang-Chang and Chen, Pisin

Subjects

Astrophysics

Abstract

It is well-known that the universe was in a plasma state both before decoupling and after reionization. However, the conventional wisdom has been that the plasma effects are largely Debye-shielded and can thus be safely ignored when considering large scale evolutions. Recently we showed that large scale structure formation in the universe may actually be suppressed by the plasma collective effect. Indeed, observational data indicate that the conventional theoretical formula tends to overestimate the matter power spectrum at scales $k>1h{\rm Mpc}^{-1}$. In this paper, we further develop our theory through a more thorough and general derivation of the Maxwell-Einstein-Boltzmann equation. In addition to baryon density perturbation post reionization, we apply this general formulation to investigate the possible plasma effect on CMB anisotropy. As expected, while the plasma effect does render an observable effect to the former, its impact on the latter is totally negligible., Comment: 8 pages, no figure

Published

2008

170. A New Approach to Testing Dark Energy Models by Observations

Author

Gu, Je-An, Chen, Chien-Wen, and Chen, Pisin

Subjects

Astrophysics

Abstract

We propose a new approach to the consistency test of dark energy models with observations. To test a category of dark energy models, we suggest introducing a characteristic Q(z) that in general varies with the redshift z but in those models plays the role of a (constant) distinct parameter. Then, by reconstructing dQ(z)/dz from observational data and comparing it with zero we can assess the consistency between data and the models under consideration. For a category of models that passes the test, we can further constrain the distinct parameter of those models by reconstructing Q(z) from data. For demonstration, in this paper we concentrate on quintessence. In particular we examine the exponential potential and the power-law potential via a widely used parametrization of the dark energy equation of state, w(z) = w_0 + w_a z/(1+z), for data analysis. This method of the consistency test is particularly efficient because for all models we invoke the constraint of only a single parameter space that by choice can be easily accessed. The general principle of our approach is not limited to dark energy. It may also be applied to the testing of various cosmological models and even the models in other fields beyond the scope of cosmology., Comment: 19 pages, 5 figures

Published

2008

171. Cosmological Constant as a Manifestation of the Hierarchy

Author

Chen, Pisin and Gu, Je-An

Subjects

High Energy Physics - Theory, Astrophysics

Abstract

There has been the suggestion that the cosmological constant as implied by the dark energy is related to the well-known hierarchy between the Planck scale, $M_{\rm Pl}$, and the Standard Model scale, $M_{\rm SM}$. Here we further propose that the same framework that addresses this hierarchy problem must also address the smallness problem of the cosmological constant. Specifically, we investigate the minimal supersymmetric (SUSY) extension of the Randall-Sundrum model where SUSY-breaking is induced on the TeV brane and transmitted into the bulk. We show that the Casimir energy density of the system indeed conforms with the observed dark energy scale.

Published

2007

172. Magnetowave Induced Plasma Wakefield Acceleration for Ultra High Energy Cosmic Rays

Author

Chang, Feng-Yin, Chen, Pisin, Lin, Guey-Lin, Reil, Kevin, and Sydora, Richard

Subjects

Astrophysics

Abstract

Magnetowave induced plasma wakefield acceleration (MPWA) in a relativistic astrophysical outflow has been proposed as a viable mechanism for the acceleration of cosmic particles to ultra high energies. Here we present simulation results that clearly demonstrate the viability of this mechanism for the first time. We invoke the high frequency and high speed whistler mode for the driving pulse. The plasma wakefield so induced validates precisely the theoretical prediction. We show that under appropriate conditions, the plasma wakefield maintains very high coherence and can sustain high-gradient acceleration over a macroscopic distance. Invoking gamma ray burst (GRB) as the source, we show that MPWA production of ultra high energy cosmic rays (UHECR) beyond ZeV 10^21 eV is possible., Comment: 4 pages, 4 figures

Published

2007

173. Plasma Suppression of Large Scale Structure Formation in the Universe

Author

Chen, Pisin and Lai, Kwang-Chang

Subjects

Astrophysics

Abstract

We point out that during the reionization epoch of the cosmic history, the plasma collective effect among the ordinary matter would suppress the large scale structure formation. The imperfect Debye shielding at finite temperature would induce a residual long-range electrostatic potential which, working together with the baryon thermal pressure, would counter the gravitational collapse. As a result the effective Jean's length, $\tilde{\lambda}_J$, is increased by a factor, $\tilde{\lambda}_J/\lambda_J=\sqrt{8/5}$, relative to the conventional one. For scales smaller than the effective Jean's scale the plasma would oscillate at the ion-acoustic frequency. The modes that would be influenced by this effect depend on the starting time and the initial temperature of reionization, but roughly lie in the range $0.5 h{\rm Mpc}^{-1}< k$, which corresponds to the region of the Lyman-$\alpha$ forest from the inter-galactic medium. We predict that in the linear regime of density-contrast growth, the plasma suppression of the matter power spectrum would approach $1-(\Omega_{dm}/\Omega_m)^2\sim 1-(5/6)^2\sim 30%$., Comment: 4 pages and 2 figures

Published

2007

174. Dark energy and the hierarchy problem

Author

Chen, Pisin

Subjects

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

Abstract

The well-known hierarchy between the Planck scale (~10^{19}GeV) and the TeV scale, namely a ratio of ~10^{16} between the two, is coincidentally repeated in a inverted order between the TeV scale and the dark energy scale at \~10^{-3}eV implied by the observations. We argue that this is not a numerical coincidence. The same brane-world setups to address the first hierarchy problem may also in principle address this second hierarchy issue. Specifically, we consider supersymmetry in the bulk and its breaking on the brane and resort to the Casimir energy induced by the bulk graviton-gravitino mass-shift on the brane as the dark energy. For the ADD model we found that our notion is sensible only if the number of extra dimension n=2. We extend our study to the Randall-Sundrum model. Invoking the chirality-flip on the boundaries for SUSY-breaking, the zero-mode gravitino contribution to the Casimir energy does give rise to the double hierarchy. Unfortunately since the higher Kaluza-Klein modes acquire relative mass-shifts at the TeV level, the zero-mode contribution to Casimir energy is overshadowed., Comment: Submitted to the DM06 Proceedings (to be published by Nuclear Physics B)

Published

2006

175. A Lower Bound on Neutrino Mass and Its Implication on The Z-burst Scenario

Author

Lai, Kwang-Chang and Chen, Pisin

Subjects

Astrophysics

Abstract

We show that the cascade limit on ultra high energy cosmic neutrino (UHEC$\nu$) flux imposes a lower bound on the neutrino mass provided that super-GZK events of ultra high energy cosmic rays (UHECRs) are produced from Z-bursts. Based on the data from HiRes and AGASA, the obtained neutrino mass lower bound violates its existing cosmological upper bound. We conclude that the Z-bursts cannot be the dominant source for the observed super-GZK UHECR events. This is consistent with the recent ANITA-lite data., Comment: 6 pages, derivation simplified and main idea consolidated, and appendix added

Published

2005

176. Brane Inflation, Solitons and Cosmological Solutions: I

Author

Chen, Pisin, Dasgupta, Keshav, Narayan, K., Shmakova, Marina, and Zagermann, Marco

Subjects

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

Abstract

In this paper we study various cosmological solutions for a D3/D7 system directly from M-theory with fluxes and M2-branes. In M-theory, these solutions exist only if we incorporate higher derivative corrections from the curvatures as well as G-fluxes. We take these corrections into account and study a number of toy cosmologies, including one with a novel background for the D3/D7 system whose supergravity solution can be completely determined. This new background preserves all the good properties of the original model and opens up avenues to investigate cosmological effects from wrapped branes and brane-antibrane annihilation, to name a few. We also discuss in some detail semilocal defects with higher global symmetries, for example exceptional ones, that could occur in a slightly different regime of our D3/D7 model. We show that the D3/D7 system does have the required ingredients to realise these configurations as non-topological solitons of the theory. These constructions also allow us to give a physical meaning to the existence of certain underlying homogeneous quaternionic Kahler manifolds., Comment: Harvmac, 115 pages, 9 .eps figures; v2: typos corrected, references added and the last section expanded; v3: Few minor typos corrected and references added. Final version to appear in JHEP

Published

2005

177. Casimir Effect in a Supersymmetry-Breaking Brane-World as Dark Energy

Author

Chen, Pisin and Gu, Je-An

Subjects

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

Abstract

A new model for the origin of dark energy is proposed based on the Casimir effect in a supersymmetry-breaking brane-world. Supersymmetry is assumed to be preserved in the bulk while broken on a 3-brane. Due to the boundary conditions imposed on the compactified extra dimensions, there is an effective Casimir energy induced on the brane. The net Casimir energy contributed from the graviton and the gravitino modes as a result of supersymmetry-breaking on the brane is identified as the observed dark energy, which in our construction is a cosmological constant. We show that the smallness of the cosmological constant, which results from the huge contrast in the extra-dimensional volumes between that associated with the 3-brane and that of the bulk, is attainable under very relaxed conditions., Comment: 4 pages, 2 figures

Published

2004

178. Inflation Induced Planck-Size Black Hole Remnants As Dark Matter

Author

Chen, Pisin

Subjects

Astrophysics

Abstract

While there exist various candidates, the identification of dark matter remains unresolved. Recently it was argued that the generalized uncertainty principle (GUP) may prevent a black hole from evaporating completely, and as a result there should exist a Planck-size BHR at the end of its evaporation. We speculate that the stability of BHR may be further protected by supersymmetry in the form of extremal black hole. If this is indeed the case and if a sufficient amount of small black holes can be produced in the early universe, then the resultant BHRs can be an interesting candidate for DM. We demonstrate that this is the case in the hybrid inflation model. By assuming BHR as DM, our notion imposes a constraint on the hybrid inflation potential. We show that such a constraint is not fine-tuned. Possible observational signatures are briefly discussed.

Published

2004

179. Generalized Uncertainty Principle and Dark Matter

Author

Chen, Pisin

Subjects

Astrophysics

Abstract

There have been proposals that primordial black hole remnants (BHRs) are the dark matter, but the idea is somewhat vague. Recently we argued that the generalized uncertainty principle (GUP) may prevent black holes from evaporating completely, in a similar way that the standard uncertainty principle prevents the hydrogen atom from collapsing. We further noted that the hybrid inflation model provides a plausible mechanism for production of large numbers of small black holes. Combining these we suggested that the dark matter might be composed of Planck-size BHRs. In this paper we briefly review these arguments, and discuss the reheating temperature as a result of black hole evaporation., Comment: Contributed to the Proceedings of International Symposium on Frontiers of Science in Celebration of the 80th Birthday of Chen Ning Yang, June 17-19, 2002, Beijing, China

Published

2003

180. Laboratory Investigations into the Extreme Universe

Author

Chen, Pisin

Subjects

Astrophysics

Abstract

Recent years have seen tremendous progress in our understanding of the extreme universe, which in turn points to even deeper questions to be further addressed. History has shown that the symbiosis between direct observations and laboratory investigations is instrumental in the progress of astrophysics. Current frontier astrophysical phenomena related to particle astrophysics and cosmology typically involve one or more of the following conditions: (1) extremely high energy events;(2) very high density, high temperature processes; (3) super strong field environments. Laboratory experiments using high intensity lasers and particle beams can calibrate astrophysical observation or detection processes, investigate the underlying dynamics of astrophysical phenomena, and probe fundamental physics in extreme limits. We give examples of possible laboratory experiments that investigate into the extreme universe.

Published

2003

181. Might Dark Matter be Actually Black?

Author

Chen, Pisin

Subjects

Astrophysics

Abstract

There have been proposals that primordial black hole remnants (BHRs) are the dark matter, but the idea is somewhat vague. We argue here first that the generalized uncertainty principle (GUP) may prevent black holes from evaporating completely, in a similar way that the standard uncertainty principle prevents the hydrogen atom from collapsing. Secondly we note that the hybrid inflation model provides a plausible mechanism for production of large numbers of small black holes. Combining these we suggest that the dark matter might be composed of Planck-size BHRs and discuss the possible constraints and signatures associated with this notion.

Published

2003

182. Black Hole Remnants and Dark Matter

Author

Chen, Pisin and Adler, Ronald J.

Subjects

General Relativity and Quantum Cosmology

Abstract

We argue that, when the gravity effect is included, the generalized uncertainty principle (GUP) may prevent black holes from total evaporation in a similar way that the standard uncertainty principle prevents the hydrogen atom from total collapse. Specifically we invoke the GUP to obtain a modified Hawking temperature, which indicates that there should exist non-radiating remnants (BHR) of about Planck mass. BHRs are an attractive candidate for cold dark matter. We investigate an alternative cosmology in which primordial BHRs are the primary source of dark matter., Comment: 4 pages; to appear in the Proceedings of the 5th UCLA Dark Matter Symposium, Marina del Rey, Ca, Feb. 20-22, 2002

Published

2002

183. Plasma Wakefield Acceleration for Ultrahigh Energy Cosmic Rays

Author

Chen, Pisin, Tajima, Toshiki, and Takahashi, Yoshiyuki

Subjects

Astrophysics

Abstract

A cosmic acceleration mechanism is introduced which is based on the wakefields excited by the Alfven shocks in a relativistically flowing plasma, where the energy gain per distance of a test particle is Lorentz invariant. We show that there exists a threshold condition for transparency below which the accelerating particle is collision-free and suffers little energy loss in the plasma medium. The stochastic encounters of the random accelerating-decelerating phases results in a power-law energy spectrum: f(e) 1/e^2. The environment suitable for such plasma wakefield acceleration can be cosmically abundant. As an example, we discuss the possible production of super-GZK ultra high energy cosmic rays (UHECR) through this mechanism in the atmosphere of gamma ray bursts. We show that the acceleration gradient can be as high as G ~ 10^16 eV/cm. The estimated event rate in our model agrees with that from UHECR observations., Comment: 11 pages, 1 figure, submitted to Phys. Rev. Lett

Published

2002

184. Plasma Lens Backgrounds at a Future Linear Collider

Author

Weidemann, Achim W., Chen, Pisin, and Ng, Cho-Kuen

Subjects

High Energy Physics - Experiment

Abstract

A 'plasma lens' might be used to enhance the luminosity of future linear colliders. However, its utility for this purpose depends largely on the potential backgrounds that may be induced by the insertion of such a device in the interaction region of the detector. In this note we identify different sources of such backgrounds, calculate their event rates from the elementary interaction processes, and evaluate their effects on the major parts of a hypothetical Next Linear Collider (NLC) detector. For plasma lens parameters which give a factor of seven enhancement of the luminosity, and using the NLC design for beam parameters as a reference, we find that the background yields are fairly high, and require further study and improvements in detector technology to avoid their impact., Comment: 14 pages incl. 3 figures; contributed to the 4th International Workshop, Electron-Electron Interactions at TeV Energies, Santa Cruz, California, Dec. 7 - 9, 2001. To be published in Int.Journ. Mod. Phys. A

Published

2002

185. The Generalized Uncertainty Principle and Black Hole Remnants

Author

Adler, Ronald J., Chen, Pisin, and Santiago, David I.

Subjects

General Relativity and Quantum Cosmology

Abstract

In the current standard viewpoint small black holes are believed to emit radiation as black bodies at the Hawking temperature, at least until they reach Planck size, after which their fate is open to conjecture. A cogent argument against the existence of remnants is that, since no evident quantum number prevents it, black holes should radiate completely away to photons and other ordinary stable particles and vacuum, like any unstable quantum system. Here we argue the contrary, that the generalized uncertainty principle may prevent their total evaporation in exactly the same way that the uncertainty principle prevents the hydrogen atom from total collapse: the collapse is prevented, not by symmetry, but by dynamics, as a minimum size and mass are approached., Comment: 11 pages, 4 figures; Winner of 3rd Place in the 2001 Gravity Research Foundation Essay Competition

Published

2001

186. Laser Shaping and Optimization of the Laser-Plasma Interaction

Author

Spitkovsky, Anatoly and Chen, Pisin

Subjects

Physics - Accelerator Physics, Physics - Plasma Physics

Abstract

The physics of energy transfer between the laser and the plasma in laser wakefield accelerators is studied. We find that wake excitation by arbitrary laser shapes can be parameterized using the total pulse energy and pulse depletion length. A technique for determining laser profiles that produce the required plasma excitation is developed. We show that by properly shaping the longitudinal profile of the driving laser pulse, it is possible to maximize both the transformer ratio and the wake amplitude, achieving optimal laser-plasma coupling. The corresponding family of laser pulse shapes is derived in the nonlinear regime of laser-plasma interaction. Such shapes provide theoretical upper limit on the magnitude of the wakefield and efficiency of the accelerating stage by allowing for uniform photon deceleration inside the laser pulse. We also construct realistic optimal pulse shapes that can be produced in finite-bandwidth laser systems and propose a two-pulse wake amplification scheme using the optimal solution., Comment: 12 pages, 5 figures, contributed to the Advanced Accelerator Concepts 2000 workshop

Published

2000

187. Longitudinal Laser Shaping in Laser Wakefield Accelerators

Author

Spitkovsky, Anatoly and Chen, Pisin

Subjects

Physics - Accelerator Physics, Physics - Plasma Physics

Abstract

We study the energetics of wake excitation during the laser-plasma interaction in application to laser wakefield accelerators. We find that both the wake amplitude and the accelerating efficiency (transformer ratio) can be maximized by properly shaping the longitudinal profile of the driving laser pulse. The corresponding family of laser pulse shapes is derived in the nonlinear regime of laser-plasma interaction. Such shapes provide theoretical upper limit on the magnitude of the wakefield and efficiency by allowing for uniform photon deceleration inside the laser pulse. We also construct realistic optimal pulse shapes that can be produced in finite-bandwidth laser systems., Comment: 4 pages, 3 figures, submitted to Physical Review Letters

Published

2000

188. Development of Affordable and Compact Muon Tomography Detector

Author

Su, Shih-Chieh, primary, Chen, Ying-Chih, additional, Nam, Jiwoo, additional, Chen, Pisin, additional, and Kuo, Chung-Yun, additional

Published

2023

189. Kinematically boosted pairs from the nonlinear Breit–Wheeler process in small-angle laser collisions

Author

Chen, Pisin, primary and Labun, Lance, additional

Published

2023

190. TAROGE-M: Antarctic High-Mountain Radio Antenna Array for Detecting Ultra-High Energy ANITA Anomalous Events

Author

Wang, Shih-Hao, primary, Chen, Pisin, additional, Chen, Yaocheng, additional, Chen, Ying-Chih, additional, Choi, Taejin, additional, Ham, Young-bae, additional, Hsu, Shih-Ying, additional, Huang, Jian-Jung, additional, Huang, Ming-Huey Alfred, additional, Jee, Geonhwa, additional, Jung, Jongil, additional, Kim, Jieun, additional, Kuo, Chung-Yun, additional, Kwon, Hyuck-Jin, additional, Lee, Changsup, additional, Leung, Chung-Hei, additional, Liu, Tsung-Che, additional, Nam, Jiwoo, additional, Shiao, Yu-Shao Jerry, additional, Shin, Bok-Kyun, additional, Su, Shih-Chieh, additional, Wang, Min-Zu, additional, Wang, Yu-Hsin, additional, Anker, Astrid, additional, Barwick, Steven W., additional, Besson, Dave, additional, Bouma, Sjoerd, additional, Cataldo, Maddalena, additional, Gaswint, Geoffrey, additional, Glaser, Christian, additional, Hallmann, Steffen, additional, Hanson, Jordan, additional, Henrichs, Jakob, additional, Kleinfelder, Stuart A., additional, Lahmann, Robert, additional, Meyers, Zachary Samuel, additional, Nelles, Anna, additional, Novikov, Alexander, additional, Paul, Manuel P., additional, Pyras, Lilly, additional, Persichilli, Christopher, additional, Plaisier, Ilse, additional, Rice-Smith, Ryan, additional, Seikh, Mohammad, additional, Tatar, Joulien, additional, Welling, Christoph, additional, and Zhao, Leshan, additional

Published

2023

191. In-vacuum post-compression of low-fluence femtosecond probe laser pulses

Author

Lorenz, Sebastian, primary, Grittani, Gabriele Maria, primary, Kondo, Kotaro, primary, Kon, Akira, primary, Liu, Yung-Kun, primary, Sagisaka, Akito, primary, Ogura, Koichi, primary, Nakanii, Nobuhiko, primary, Huang, Kai, primary, Bierwage, Andreas, primary, Namba, Shinichi, primary, Ohiro, Hikari, primary, Pikuz, Tatiana, primary, Koga, James, primary, Chen, Pisin, primary, Kiriyama, Hiromitsu, primary, kando, masaki, primary, Esirkepov, Timur, primary, Bulanov, Sergei, primary, and Pirozhkov, Alexander, primary

Published

2023

192. Eddington-inspired-Born–Infeld tensorial instabilities neutralized in a quantum approach

Author

Albarran, Imanol, Bouhmadi-López, Mariam, Chen, Che-Yu, and Chen, Pisin

Published

2020

193. Hadron production in gamma-gamma collisions as a background for e+e- linear colliders

Author

Chen, Pisin, Barklow, Timothy L., and Peskin, Michael E.

Subjects

High Energy Physics - Phenomenology

Abstract

Drees and Godbole have proposed that, at the interaction point of an e+e- linear collider, one expects a high rate of hadron production by gamma-gamma collisions, providing an additional background to studies in e+e- annihilation. Using a simplified model of the gamma-gamma cross section with soft and jet-like components, we estimate the expected rate of these hadronic events for a variety of realistic machine designs. The final background rates are quite small, and they become smaller still when viewed with a realistic detector simulation., Comment: PHYZZX, 39 pages, including 3 tables; 14 figures are not included but are available upon request

Published

1993

194. Preface for Special Issue: Progress in Laser Accelerator and Future Prospects

Author

Tajima, Toshiki, primary and Chen, Pisin, additional

Published

2023

195. Dark energy induced anisotropy in cosmic expansion

Author

Chen, Chien-Ting and Chen, Pisin

Published

2019

196. Hawking radiation as instantons

Author

Chen, Pisin, Sasaki, Misao, and Yeom, Dong-han

Published

2019

197. Emergent inflation from a Nambu–Jona-Lasinio mechanism in gravity with non-dynamical torsion

Author

Addazi, Andrea, Chen, Pisin, and Marcianò, Antonino

Published

2019

198. Cold black holes in the Harlow–Hayden approach to firewalls

Author

Ong, Yen Chin, McInnes, Brett, and Chen, Pisin

Published

2015

199. AnaBHEL (Analog Black Hole Evaporation via Lasers) Experiment: Concept, Design, and Status

Author

Chen, Pisin, primary, Mourou, Gerard, additional, Besancon, Marc, additional, Fukuda, Yuji, additional, Glicenstein, Jean-Francois, additional, Nam, Jiwoo, additional, Lin, Ching-En, additional, Lin, Kuan-Nan, additional, Liu, Shu-Xiao, additional, Liu, Yung-Kun, additional, Kando, Masaki, additional, Kondo, Kotaro, additional, Paganis, Stathes, additional, Pirozhkov, Alexander, additional, Takabe, Hideaki, additional, Tuchming, Boris, additional, Wang, Wei-Po, additional, Watamura, Naoki, additional, Wheeler, Jonathan, additional, and Wu, Hsin-Yeh, additional

Published

2022

200. Phantom dark ghost in Einstein–Cartan gravity

Author

Chang, Yu-Chiao, Bouhmadi-López, Mariam, and Chen, Pisin

Published

2017