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109 results on '"Park, Miok"'

1. Scalar Field Perturbation of Hairy Black Holes in EsGB theory

Author

Hyun, Young-Hwan, Latosh, Boris, and Park, Miok

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

We investigate scalar field perturbations of the hairy black holes involved with spontaneous symmetry breaking of the global U(1) symmetry in Einstein-scalar-Gauss-Bonnet theory for asymptotically flat spacetimes. We consider the mechanism that black holes without hairs become unstable at the critical point of the coupling constant and undergo a phase transition to hairy black holes in the symmetry-broken phase driven by spontaneous symmetry breaking. This transition occurs near the black hole horizon due to the diminishing influence of the Gauss-Bonnet term at infinity. To examine such process, we introduce a scalar field perturbation on the newly formed background spacetime. We solve the linearized perturbation equation using Green's function method. We begin by solving the Green's function, incorporating the branch cut contribution. This allows us to analytically investigate the late-time behavior of the perturbation at both spatial and null infinity. We found that the late-time behavior only differs from the Schwarzschild black hole by a mass term. We then proceed to calculate the quasinormal modes (QNMs) numerically, which arise from the presence of poles in the Green's function. Our primary interest lies in utilizing QNMs to investigate the stability of the black hole solutions both the symmetric and symmetry-broken phases. Consistent with the prior study, our analysis shows that hairy black holes in the symmetric phase become unstable when the quadratic coupling constant exceeds a critical value for a fixed value of the quartic coupling constant. In contrast, hairy black holes in the symmetry-broken phase are always stable at the critical value. These numerical results provide strong evidence for a dynamical process that unstable black holes without hairs transition into stable hairy black holes in the symmetry-broken phase through the spontaneous symmetry breaking., Comment: 44 pages, 15 figures, 8 tables, typos fixed, published version

Published
2024

2. Black Holes in Einstein-scalar-Gauss-Bonnet model probed with scattering amplitudes

Author

Latosh, Boris and Park, Miok

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

We examined the quantum properties of scalar-tensor gravity with a coupling to the Gauss-Bonnet term in the low energy limit, exploring both linear and quadratic couplings. We calculated the leading-order corrections to the non-relativistic one-body gravitational potential and the metric by studying the gravitational field of a point-like scalar particle. We studied light-like scattering and compared it with the classical theory. We found that the non-minimal coupling does not contribute to the small-angle scattering for the quadratic coupling but does in the case of linear coupling. The results provide an opportunity to constrain the linear non-minimal coupling to the Gauss-Bonnet term with forthcoming observational data., Comment: 28 pages, 4 figures

Published
2023
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3. Thermodynamics with conformal Killing vector in the charged Vaidya metric

Author

Koh, Seoktae, Park, Miok, and Sherif, Abbas M.

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

We investigate the charged Vaidya spacetime with conformal symmetry by classifying the horizons and finding its connection to Hawking temperature. We find a conformal Killing vector whose existence requires the mass and electric charge functions to be proportional, as well as linear in time. Solving the Killing equations for the conformally transformed metric from the linear charged Vaidya metric yields the required form of the conformal factor. From the vanishing of the norm of the conformal Killing vector, we find three conformal Killing horizons which, under the transformation, are mapped to the Killing horizons of the associated static spacetime, if the spherical symmetry is maintained. We find that the conformal factor is not uniquely determined, but can take any function of the ratio of the radial coordinate to the dynamical mass. As an example, we illustrate a static spacetime with our choice of the conformal factor and explicitly show that the surface gravity of the conformal Killing horizons, which is conformally invariant, yield the expected Hawking temperature in the static spacetime. This static black hole spacetime contains a cosmological horizon, but it is not asymptotically de Sitter. We also investigate the case when the mass parameter is equal to the constant electric charge. While in this case the standard pair of horizons, the loci of the time component of the metric, degenerate, the conformal Killing horizons do not degenerate. This therefore leads to a non-zero Hawking temperature in the associated static spacetime., Comment: 14 page, typos fixed, references added

Published
2023
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4. Hairy Black Holes by Spontaneous Symmetry Breaking

Author

Latosh, Boris and Park, Miok

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

We study hairy black hole solutions in Einstein(--Maxwell)--scalar--Gauss--Bonnet theory. The scalar coupling function includes quadratic and quartic terms, so the gravitational action has a U(1) symmetry. We argued that when the effective mass of the scalar field is at the critical value, the non-hairy black holes transform into hairy black holes in a symmetry-broken vacuum via spontaneous symmetry breaking. These hairy black holes are stable under scalar perturbations, and the Goldstone bosons are trivial. Moreover, we found that the spontaneous symmetry breaking associated with local U(1) is unlikely to occur in this theory., Comment: 7 pages, 16 figures, (article becomes shorter in ver 3)

Published
2023
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5. Rectifying No-Hair Theorems in Gauss-Bonnet theory

Author

Papageorgiou, Alexandros, Park, Chan, and Park, Miok

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

We revisit the no-hair theorems in Einstein-Scalar-Gauss-Bonnet theory with a general coupling function between the scalar and the Gauss-Bonnet term in four dimensional spacetime. In the case of the old no-hair theorem the surface term has so far been ignored, but this plays a crucial role when the coupling function does not vanish at infinity and the scalar field admits a power expansion with respect to the inverse of the radial coordinate in that regime. We also clarify that the novel no-hair theorem is always evaded for regular black hole solutions without any restrictions as long as the regularity conditions are satisfied., Comment: v2 : 6 pages, 6 figures, remove/replace some figures, references are added

Published
2022

9. Identifying Riemannian singularities with regular non-Riemannian geometry

Author

Morand, Kevin, Park, Jeong-Hyuck, and Park, Miok

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

Admitting non-Riemannian geometries, Double Field Theory extends the notion of spacetime beyond the Riemannian paradigm. We identify a class of singular spacetimes known in General Relativity with regular non-Riemannian geometries. The former divergences merely correspond to coordinate singularities of the generalised metric for the latter. Computed in string frame, they feature an impenetrable non-Riemannian sphere outside of which geodesics are complete with no singular deviation. Approaching the non-Riemannian points, particles freeze and strings become (anti-)chiral., Comment: v2) 7 pages, title modified, references added, redaction improved, example D relegated to Supplemental Material. To appear in Physical Review Letters

Published
2021
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10. Complement to thermodynamics of dyonic Taub-NUT-AdS spacetime

Author

Mann, Robert B., Zayas, Leopoldo A. Pando, and Park, Miok

Subjects
High Energy Physics - Theory
Abstract

We examine the thermodynamics of Euclidean dyonic Taub-NUT/Bolt-AdS4 black holes for a variety of horizon geometries to understand how gauge field regularity conditions influence the thermodynamic relations. We find several distinct features that distinguish the NUT-charged case from its dyonic Reissner-Nordstrom counterpart. For the NUT solution, the gauge field vanishes at the horizon and so regularity is ensured. For the Bolt solution we find that the norm of the gauge field is required to vanish at the horizon in order to satisfy both regularity and the first law of thermodynamics. This regularity condition yields a constraint on the electric and magnetic charges and so reduces cohomogeneity of the system; for spherical horizons, the regularity condition removing the Misner string singularity further reduces cohomogeneity, We observe that bolt solutions with increasing electric charge have positive heat capacity, but upon turning on the magnetic charge to make the solution dyonic, we find that the properties of the uncharged one are retained, having both positive and negative heat capacity. We also study the extremal Bolt solution, finding that Misner string disappears at the horizon in the zero temperature limit. We find that the extremal solution has finite-temperature-like behaviour, with the electric potential playing a role similar to temperature., Comment: 28 pages, 18 figures

Published
2020
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11. On the regularization of Lifshitz-type field theories

Author

Bonanno, Alfio, Park, Miok, Rachwał, Lesław, and Zappalà, Dario

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

We consider Lifshitz-type scalar theories with explicit breaking of the Lorentz symmetry that, in addition, exhibit anisotropic scaling laws near the ultraviolet fixed point. Using the proper time regularization method on the spatial coordinates only, we derive the regularized form of the one-loop effective potential in such theories. We study the main features of the one-loop effective potential and, also, the RG flow of the scale-dependent potential both in the IR and UV regimes. The beta functions for the couplings are derived., Comment: 12 pages, 3 figures

Published
2020
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12. Quasilocal Smarr relation for an asymptotically flat spacetime

Author

Lee, Yein, Richards, Matthew, Stotyn, Sean, and Park, Miok

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

We investigate the thermodynamics of Einstein-Maxwell(-Dilaton) theory for an asymptotically flat spacetime in a quasilocal frame. We firstly define a quasilocal thermodynamic potential via the Euclidean on-shell action and formulate a quasilocal Smarr relation from Eulerian theorem. Then we calculate quasilocal energy and surface pressure by employing Brown-York quasilocal method along with Mann-Marolf counterterm and find entropy from the quasilocal thermodynamic potential. These quasilocal variables are consistent with Tolman temperature and the entropy in a quasilocal frame turns out to be same as the Bekenstein-Hawking entropy. As a result, we found that a surface pressure term and its conjugate variable, a quasilocal area, do not participate in a quasilocal thermodynamic potential, but should present in a quasilocal Smarr relation and the quasilocal first law of black hole thermodynamics. For dyonic black hole solutions having dynamic dilaton field, non-trivial dilaton contribution should take part in the quasilocal first law but not in the quasilocal Smarr relation., Comment: 22 pages, overall reorganized

Published
2018

13. An emergent geometric description for a topological phase transition in the Kitaev superconductor model

Author

Kim, Ki-Seok, Park, Miok, Cho, Jaeyoon, and Park, Chanyong

Subjects
High Energy Physics - Theory, Condensed Matter - Strongly Correlated Electrons
Abstract

Resorting to Wilsonian renormalization group (RG) transformations, we propose an emergent geometric description for a topological phase transition in the Kitaev superconductor model. An effective field theory consists of an emergent bulk action with an extra dimension, an ultraviolet (UV) boundary condition for an initial value of a coupling function, and an infrared (IR) effective action with a fully renormalized coupling function. The bulk action describes the evolution of the coupling function along the direction of the extra dimension, where the extra dimension is identified with an RG scale and the resulting equation of motion is nothing but a $\beta-$function. In particular, the IR effective field theory turns out to be consistent with a Callan-Symanzik equation which takes into account both the bulk and IR boundary contributions. This derived Callan-Symanzik equation gives rise to a metric structure. Based on this emergent metric tensor, we uncover the equivalence of the entanglement entropy between the emergent geometric description and the quantum field theory in the vicinity of the quantum critical point., Comment: Two figures added

Published
2016
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14. Phase transition in anisotropic holographic superfluids with arbitrary $z$ and $\alpha$

Author

Park, Miok, Park, Jiwon, and Oh, Jae-Hyuk

Subjects
High Energy Physics - Theory
Abstract

Einstein-dilaton-$U(2)$ gauge field theory is considered in a spacetime characterised by $\alpha$ and $z$, which are the hyperscaling violation factor and the dynamical critical exponent respectively. We obtain the critical values of chemical potential $\mu_c$ that is defined on its boundary dual fluid and derives phase transition from spatially isotropic to anisotropic phase for the various values of the $\alpha$ and $z$. To do so, we first apply Sturm-Liouville theory and estimate the upper bounds of the critical values of the chemical potential. We also employ a numerical method in the ranges of $1 \leq z \leq 4$ and $0 \leq \alpha \leq 4$ to check if the Sturm-Liouville method correctly estimates the critical values of the chemical po10 percent error ranges. Finally, we compute free energy density of the dual fluid by using its gravity dual and check if the system shows phase transition at the critical values of the chemical potential $\mu_c$ for the given parameter region of $\alpha$ and $z$. Interestingly, it is observed that the anisotropic phase is more favoured than the isotropic phase for small values of $z$ and $\alpha$. However, for large values of $z$ and $\alpha$, the anisotropic phase is not favoured.tential. It turns out that the two methods are agreed within, Comment: 1+15 pages, 7 Figures

Published
2016

15. Ward Identity and Homes' Law in a Holographic Superconductor with Momentum Relaxation

Author

Kim, Keun-Young, Kim, Kyung Kiu, and Park, Miok

Subjects
High Energy Physics - Theory, Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

We study three properties of a holographic superconductor related to conductivities, where momentum relaxation plays an important role. First, we find that there are constraints between electric, thermoelectric and thermal conductivities. The constraints are analytically derived by the Ward identities regarding diffeomorphism from field theory perspective. We confirm them by numerically computing all two-point functions from holographic perspective. Second, we investigate Homes' law and Uemura's law for various high-temperature and conventional superconductors. They are empirical and (material independent) universal relations between the superfluid density at zero temperature, the transition temperature, and the electric DC conductivity right above the transition temperature. In our model, it turns out that the Homes' law does not hold but the Uemura's law holds at small momentum relaxation related to coherent metal regime. Third, we explicitly show that the DC electric conductivity is finite for a neutral scalar instability while it is infinite for a complex scalar instability. This shows that the neutral scalar instability has nothing to do with superconductivity as expected., Comment: 31 pages, 14 figures, v2: minor changes, typos corrected, references added

Published
2016
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16. Large superconformal near-horizons from M-theory

Author

Kelekci, Ozgur, Lozano, Yolanda, Montero, Jesus, Colgáin, Eoin Ó, and Park, Miok

Subjects
High Energy Physics - Theory
Abstract

We report on a classification of supersymmetric solutions to 11D supergravity with $SO(2,2) \times SO(3)$ isometry, which are AdS/CFT dual to 2D CFTs with $\mathcal{N} = (0,4)$ supersymmetry. We recover the Maldacena, Strominger, Witten (MSW) near-horizon with small superconformal symmetry and identify a class of $AdS_3 \times S^2 \times S^2 \times CY_2$ geometries with emergent large superconformal symmetry. This exhausts known compact geometries. Compactification of M-theory on $CY_2$ results in a vacuum of 7D supergravity with large superconformal symmetry, providing a candidate near-horizon for an extremal black hole and a potential new setting to address microstates., Comment: 5 pages; v2 6 pages, catchier title, rewritten introduction, references added, details of consistent truncation from 11D to 7D supergravity added, conclusions unchanged

Published
2016
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17. Mass and Thermodynamic Volume in Lifshitz Spacetimes

Author

Brenna, Wilson G., Mann, Robert B., and Park, Miok

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

We examine the concept of black hole thermodynamic volume and its consistency with thermodynamic mass in spacetimes that are not asymptotically flat but instead have anisotropic Lifshitz scaling symmetry. We find that the generalized Smarr relation in anti de Sitter space -- extended to include a pressure-volume term -- holds here as well, and that there exists a definition of thermodynamic mass and thermodynamic volume that satisfy both this relation and the $1^{st}$ law of thermodynamics. We compare the thermodynamic mass with other known quantities such as ADM, Brown-York and Hollands-Ishibashi-Marolf masses. We also conjecture methods for obtaining a thermodynamic mass where there is ambiguity due to the cosmological constant lengthscale depending on the horizon radius lengthscale., Comment: 19 pages, 4 figures, REVTex 4; with additional corrections

Published
2015
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18. A Simple Holographic Superconductor with Momentum Relaxation

Author

Kim, Keun-Young, Kim, Kyung Kiu, and Park, Miok

Subjects
High Energy Physics - Theory, Condensed Matter - Strongly Correlated Electrons
Abstract

We study a holographic superconductor model with momentum relaxation due to massless scalar fields linear to spatial coordinates($\psi_I = \beta \delta_{Ii} x^i$), where $\beta$ is the strength of momentum relaxation. In addition to the original superconductor induced by the chemical potential($\mu$) at $\beta=0$, there exists a new type of superconductor induced by $\beta$ even at $\mu=0$. It may imply a new `pairing' mechanism of particles and antiparticles interacting with $\beta$, which may be interpreted as `impurity'. Two parameters $\mu$ and $\beta$ compete in forming a superconducting phase. As a result, the critical temperature behaves differently depending on $\beta/\mu$. It decreases when $\beta/\mu$ is small and increases when $\beta/\mu$ is large, which is a novel feature compared to other models. After analysing ground states and phase diagrams for various $\beta/\mu$, we study optical electric($\sigma$), thermoelectric($\alpha$), and thermal($\bar{\kappa}$) conductivities. When the system undergoes a phase transition from a normal to a superconducting phase, $1/\omega$ pole appears in the imaginary part of the electric conductivity, implying infinite DC conductivity. If $\beta/\mu <1$, at small $\omega$, a two-fluid model with an imaginary $1/\omega$ pole and the Drude peak works for $\sigma$, $\alpha$, and $\bar{\kappa}$, but if $\beta/\mu >1$ a non-Drude peak replaces the Drude peak. It is consistent with the coherent/incoherent metal transition in its metal phase. The Ferrell-Glover-Tinkham (FGT) sum rule is satisfied for all cases even when $\mu=0$., Comment: v3: Minor chages, version accepted in JHEP

Published
2015
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19. Dark Energy and Equation of State Oscillations with Collisional Matter Fluid in Exponential Modified Gravity

Author

Oikonomou, V. K., Karagiannakis, N., and Park, Miok

Subjects
General Relativity and Quantum Cosmology, Astrophysics - Cosmology and Nongalactic Astrophysics
Abstract

We study some aspects of cosmological evolution in a universe described by a viable curvature corrected exponential $F(R)$ gravity model, in the presence of matter fluids consisting of collisional matter and radiation. Particularly, we express the Friedmann-Robertson-Walker equations of motion in terms of parameters that are appropriate for describing the dark energy oscillations and compare the dark energy density and the dark energy equation of state parameter corresponding to collisional and non-collisional matter. In addition to these, and owing to the fact that the cosmological evolution of collisional and non-collisional matter universes, when quantified in terms of the Hubble parameter and the effective equation of states parameters, is very much alike, we further scrutinize the cosmological evolution study by extending the analysis to the study of matter perturbations in the matter domination era. We quantify this analysis in terms of the growth factor of matter perturbations, in which case the resulting picture of the cosmological evolution is clear, since collisional and non-collisional universes can be clearly distinguished. Interestingly enough, since it is known that the oscillations of the effective equation of state parameter around the phantom divide are undesirable and unwanted in $F(R)$ gravities, when these are considered for redshifts near the matter domination era and before, in the curvature corrected exponential model with collisional matter which we study here there exist oscillations that never cross the phantom divide. Therefore, this rather unwanted feature of the effective equation of state parameter is also absent in the collisional matter filled universe.

Published
2014
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20. Dynamical Condensation in a Holographic Superconductor Model with Anisotropy

Author

Bai, Xiaojian, Lee, Bum-Hoon, Park, Miok, and Sunly, Khimphun

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

We study dynamical condensation process in a holographic superconductor model with anisotropy. The time-dependent numerical solution is constructed for the Einstein-Maxwell-dilaton theory with complex scalar in asymptotic AdS spacetime. The introduction of dilaton field generates the anisotropy in boundary spatial directions. In analogy of isotropic case, we have two black hole solutions below certain critical temperature $T_c$, the anisotropic charged black hole with and without scalar hair, corresponding respectively to the supercooled normal phase and superconducting phase in the boundary theory. We observe a nonlinear evolution from a supercooled anisotropic black hole without scalar hair to a anisotropic hairy black hole. Via AdS/CFT correspondence, we extract time evolution of the condensate operator, which shows an exponential growth and subsequent saturation, similar to the isotropic case. Furthermore, we obtain a nontrivial time evolution of the boundary pressure, while in isotropic case it remains a constant. We also generalize quasinormal modes calculation to anisotropic black holes and shows scalar quasinormal modes match with relaxation time scale of the condensate operator. In addition, we present the final temperature and anisotropic pressure as functions of initial temperature and background anisotropy., Comment: 18 pages, 12 figures. v2: minor revision and references added

Published
2014
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21. Deformations of Lifshitz holography with the Gauss-Bonnet term in ($n+1$) dimensions

Author

Park, Miok and Mann, Robert B.

Subjects
High Energy Physics - Theory
Abstract

We investigate deformations of Gauss-Bonnet-Lifshitz holography in $(n+1)$ dimensional spacetime. Marginally relevant operators are dynamically generated by a momentum scale $\Lambda \sim 0$ and correspond to slightly deformed Gauss-Bonnet-Lifshitz spacetimes via a holographic picture. To admit (non-trivial) sub-leading orders of the asymptotic solution for the marginal mode, we find that the value of the dynamical critical exponent $z$ is restricted by $z= n-1-2(n-2) \tilde{\alpha}$, where $\tilde{\alpha}$ is the (rescaled) Gauss-Bonnet coupling constant. The generic black hole solution, which is characterized by the horizon flux of the vector field and $\tilde{\alpha}$, is obtained in the bulk, and we explore its thermodynamic properties for various values of $n$ and $\tilde{\alpha}$., Comment: 40 pages, 13 figures

Published
2013
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22. Holographic Renormalization of Asymptotically Flat Gravity

Author

Park, Miok and Mann, Robert B.

Subjects
High Energy Physics - Theory
Abstract

We compute the boundary stress tensor associated with Mann-Marolf counterterm in asymptotic flat and static spacetime for cylindrical boundary surface as $r \rightarrow \infty$, and find that the form of the boundary stress tensor is the same as the hyperbolic boundary case in 4 dimensions, but has additional terms in higher than 4 dimensions. We find that these additional terms are impotent and do not contribute to conserved charges. We also check the conservation of the boundary stress tensor in a sense that $\mathcal{D}^a T_{ab} = 0$, and apply our result to the ($n+3$)-dimensional static black hole solution. As a result, we show that the stress boundary tensor with Mann-Marolf counterterm works well in standard boundary surfaces., Comment: 27 pages

Published
2012
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23. Deformations of Lifshitz Holography in $(n+1)$-dimensions

Author

Park, Miok and Mann, Robert B.

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

We investigate deformations of Lifshitz holography in $(n+1)$ dimensional spacetime. After discussing the situation for general Lifshitz scaling symmetry parameter $z$, we consider $z=n-1$ and the associated marginally relevant operators. These operators are dynamically generated by a momentum scale $\Lambda \sim 0$ and correspond to slightly deformed Lifshitz spacetimes via a holographic picture. We obtain renormalization group flow at finite temperature from UV Lifshitz to IR AdS, and evaluate how physical quantities such as the free energy density and the energy density depend on $\log(\Lambda^z/T)$ in the quantum critical regime as $\Lambda^z/T \rightarrow 0$., Comment: 27 pages, 10 figures with multiple plots

Published
2012
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24. Black Holes and Boson Stars with One Killing Field in Arbitrary Odd Dimensions

Author

Stotyn, Sean, Park, Miok, McGrath, Paul L., and Mann, Robert B.

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

We extend the recent D=5 results of Dias, Horowitz and Santos by finding asymptotically AdS rotating black hole and boson star solutions with scalar hair in arbitrary odd spacetime dimension. Both the black holes and the boson stars are invariant under a single Killing vector field which co-rotates with the scalar field and, in the black hole case, is tangent to the generator of the horizon. Furthermore, we explicitly construct boson star and small black hole ($r_+ \ll \ell$) solutions perturbatively assuming a small amplitude for the scalar field, resulting in solutions valid for low energies and angular momenta. We find that just as in D=5, the angular momentum is primarily carried by the scalar field in $D>5$, whereas unlike D=5 the energy is also primarily carried by the scalar field in $D>5$; the thermodynamics in D=5 are governed by both the black hole and scalar field whereas in $D>5$ they are governed primarily by the scalar field alone. We focus on cataloguing these solutions for the spacetime dimensions of interest in string theory, namely $D=5,7,9,11$., Comment: 28 pages, 1 table, 2 Appendices. v2: minor typos corrected, references added, small discussion added to section 4. v3: typos corrected, thermodynamic discussion expanded, accepted in PRD

Published
2011
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26. The effectiveness of Nature-Based Therapy for community psychological distress and well-being during COVID-19: a multi-site trial

Author

Yang, Yeji, primary, Kim, Hyunjin, additional, Kang, Minjung, additional, Baik, Hyunjin, additional, Choi, Yunseok, additional, Jang, Eu-Jean, additional, Chang, Eun-Jin, additional, Yun, Sukyoung, additional, Park, Miok, additional, Park, Eunyeong, additional, Yun, Hojun, additional, Lee, Taek-Joo, additional, Kwon, Yeong-Han, additional, Hong, Kwang-Pyo, additional, Lee, Ai-Ran, additional, Jung, Songhie, additional, Ahn, Tai-Hyeon, additional, Jin, Hye-Young, additional, and Choi, Kee-Hong, additional

Published
2023
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30. Spatial Control of Oxygen Vacancy Concentration in Monoclinic WO3 Photoanodes for Enhanced Solar Water Splitting

Author

Kong, Heejung, primary, Yang, Haechang, additional, Park, Ji‐Sang, additional, Chae, Weon‐Sik, additional, Kim, Hee Yeong, additional, Park, Jucheol, additional, Lee, Jong Hoon, additional, Choi, Seung Yo, additional, Park, Miok, additional, Kim, Hyeonwoo, additional, Song, Youbin, additional, Park, Hyunwoong, additional, and Yeo, Junyeob, additional

Published
2022
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31. The Multi-Sites Trial on the Effects of Therapeutic Gardening on Mental Health and Well-Being

Author

Yang, Yeji, primary, Ro, Eunbin, additional, Lee, Taek-Joo, additional, An, Byung-Chul, additional, Hong, Kwang-Pyo, additional, Yun, Ho-Jun, additional, Park, Eun-Yeong, additional, Cho, Hye-Ryeong, additional, Yun, Suk-Young, additional, Park, Miok, additional, Yun, Young-Jo, additional, Lee, Ai-Ran, additional, Jeon, Jeong-Ill, additional, Jung, Songhie, additional, Ahn, Tai-Hyeon, additional, Jin, Hye-Young, additional, Lee, Kyung Ju, additional, and Choi, Kee-Hong, additional

Published
2022
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33. Spatial Control of Oxygen Vacancy Concentration in Monoclinic WO3 Photoanodes for Enhanced Solar Water Splitting.

Author

Kong, Heejung, Yang, Haechang, Park, Ji‐Sang, Chae, Weon‐Sik, Kim, Hee Yeong, Park, Jucheol, Lee, Jong Hoon, Choi, Seung Yo, Park, Miok, Kim, Hyeonwoo, Song, Youbin, Park, Hyunwoong, and Yeo, Junyeob

Subjects
TUNGSTEN trioxide, OXYGEN, LASER deposition, OXIDATION of water, ELECTRON traps
Abstract

Oxygen vacancies (OVs) are a mixed blessing for the photoelectrochemical (PEC) water oxidation performance of monoclinic tungsten trioxide (m‐WO3) photoanodes. Although it is widely accepted that a moderate concentration of OVs is beneficial for the PEC performance of the m‐WO3 photoanodes, this argument assumes a uniform distribution of OVs throughout the m‐WO3 crystal. In this case, only the overall concentration of OVs needs to be considered. However, the spatial non‐uniformity of OV defects in m‐WO3 photoanodes has not been thoroughly examined. In this study, by employing a m‐WO3 nanorod array as a model photoanode, the aim is to show that a higher OV concentration near the surface of m‐WO3 compared to that in the bulk is advantageous for the PEC performances of this material. In addition, a laser‐assisted defect control (LADC) process is employed to manipulate the spatial distribution of OVs in the m‐WO3 photoanodes to achieve enhanced PEC performances. Moreover, a one‐step laser deposition process is introduced to obtain an ultrathin FeNi oxygen evolution catalyst overlayer on the defect‐controlled m‐WO3 photoanodes, further improving PEC performance, photostability, and Faradaic efficiency. [ABSTRACT FROM AUTHOR]

Published
2022
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