Your search keyword '"Matsumoto, Masataka"' showing total 5 results

1. Non-Linear Dynamics and Critical Phenomena in the Holographic Landscape of Weyl Semimetals

Author

Matsumoto, Masataka, Mirjalali, Mirmani, and Vahedi, Ali

Subjects

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

Abstract

This study presents a detailed analysis of critical phenomena in a holographic Weyl semi-metal (WSM) using the $D3/D7$ brane configuration. The research explores the non-linear response of the longitudinal current \( J \) when subjected to an external electric field \( E \) at both zero and finite temperatures. At zero temperature, the study identifies a potential quantum phase transition in the \( J \)-\( E \) relationship, driven by background parameters the particle mass, and axial gauge potential. This transition is characterized by a unique reconnection phenomenon resulting from the interplay between WSM-like and conventional nonlinear conducting behaviors, indicating a quantum phase transition. Additionally, at non-zero temperature with dissipation, the system demonstrates first- and second-order phase transitions as the electric field and axial gauge potential are varied. The longitudinal conductivity is used as an order parameter to identify the current-driven phase transition. Numerical analysis reveals critical exponents in this non-equilibrium phase transition that show similarities to mean-field values observed in metallic systems., Comment: typo corrected

Published

2024

2. Relaxed hydrodynamic theory of electrically driven non-equilibrium steady states

Author

Brattan, Daniel K., Matsumoto, Masataka, Baggioli, Matteo, and Amoretti, Andrea

Subjects

Condensed Matter - Statistical Mechanics, Condensed Matter - Strongly Correlated Electrons, High Energy Physics - Theory

Abstract

Hydrodynamics, as an effective theory capturing long-wavelength and late-time dynamics around thermal equilibrium states, finds applications in diverse physical systems, ranging from electron flow in metals, to ocean wave propagation, traffic flow, bacterial motion and the quark-gluon plasma. On the other hand, non-equilibrium steady states (NESS), characterized by a stationary flow of energy or matter in the presence of a driving force, are pervasive in nature but they present significant challenges to the foundational principles of statistical physics, as it is generally unclear if and how they satisfy the axiomatic assumptions of thermodynamics. The capability of hydrodynamics to accurately describe slow and long-wavelength fluctuations around a NESS remains an open question. In this study, we provide positive evidence by specifically addressing electrically driven non-equilibrium charged steady states. Our approach involves introducing gapped modes and extending the effective description into a relaxed hydrodynamic theory (RHT). Leveraging the gauge-gravity duality as a tool for controlled computations within non-equilibrium systems, we establish an ultraviolet complete model for these NESS that confirms the validity of our RHT. In summary, our findings present a concrete realization of a RHT applicable to a NESS. This expands the regime of validity of hydrodynamics beyond thermal equilibrium, offering valuable insights into the dynamics of non-equilibrium systems., Comment: 18 pages, 8 figures

Published

2024

3. Duality between Seiberg-Witten Theory and Black Hole Superradiance

Author

Ge, Xian-Hui, Matsumoto, Masataka, and Zhang, Kilar

Subjects

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

Abstract

The newly established Seiberg-Witten (SW)/Quasinormal Modes (QNM) correspondence offers an efficient analytical approach to calculate the QNM frequencies, which was only available numerically before. This is based on the fact that both sides are characterized by Heun-type equations. We find that a similar duality exists between Seiberg-Witten theory and black hole superradiance, since the latter can also be linked to confluent Heun equation after proper transformation. Then a dictionary is constructed, with the superradiance frequencies written in terms of gauge parameters. Further by instanton counting, and taking care of the boundary conditions through connection formula, the relating frequencies are obtained analytically, which show consistency with known numerical results., Comment: 20 pages, 3 tables, 1 figure

Published

2024

4. A domain wall and chiral edge currents in holographic chiral phase transitions

Author

Ishigaki, Shuta, Matsumoto, Masataka, and Yoshii, Ryosuke

Subjects

High Energy Physics - Theory, Condensed Matter - Strongly Correlated Electrons, Nuclear Theory

Abstract

We investigate spatially inhomogeneous solutions in a top-down holographic model: the D3/D7 model which provides a holographic description of the chiral phase transition for a finite external magnetic field, chemical potential, and temperature. We numerically find a domain wall (or kink) solution in the three dimensional space, which incorporates between the chiral symmetry broken phase at the spatial infinity, under the homogeneous sources. Along with the inhomogeneity of the chiral condensate, the charge density is also spatially modulated. The modulated charge density and finite magnetic field lead to the chiral edge current close to the domain wall. We explore the dependences of those profiles on the chemical potential and temperature near the first and second order phase transition points. Our results indicate that the inhomogeneous solutions we found are in good agreement with those obtained by the Ginzburg--Landau theory in the vicinity of the transition points., Comment: 30 pages, 20 figures; v2: version published in JHEP

Published

2024

5. A domain wall and chiral edge currents in holographic chiral phase transitions

Author

Ishigaki, Shuta, primary, Matsumoto, Masataka, additional, and Yoshii, Ryosuke, additional

Published

2024