Draft:Journal of Holography Applications in Physics

= <!-- Journal of Holography Applications in Physics (JHAP) encompasses all aspects of the holographic principle in the field of physics. The holographic principle provides powerful tools for investigating various phenomena in different branches of physics. JHAP's goal is to bring together applications of holography for both theoretical and experimental communities. JHAP aspires to publish high-quality, peer-reviewed articles that are entirely free of charge and accessible to all. JHAP is fully financed by Damghan University, and the review and publication processes are entirely cost-free. JHAP utilizes the iThenticate software to check for similarities in submitted papers. If any form of plagiarism is detected, the manuscript can be rejected without review, and the relevant institution will be informed. JHAP editorial team consists of several editors who are among the top 2% from Stanford University. This demonstrates the academic quality and effectiveness of this journal. Holography is a significant consequence of string theory, which connects different theories such as quantum gravity and gauge field theory. The holographic principle has two aspects: quantum theories without gravity and classical theories of gravity, both of which have important applications in field theory and topology. These applications allow for connections between various branches of physics including elementary particle physics, condensed matter physics, nuclear physics, astrophysics, and cosmology. AdS/CFT conjecture is a widely holography that proposes a connection between a conformal field theory (CFT) in d-dimensional space and a supergravity theory in (d+1)-dimensional anti-de SitterS) space. This approach is used to explore strongly coupled systems such as quantum chromodynamics (QCD) at finite temperature and condensed matter theory (C In the case of QCD, it involves studying the quark-gluon plasma (QGP)-dimensional space-dimensional AdS space-time. This application, also known as the AdS/QCD correspondence, has been tested in modern particle accelerators. On the other hand, in CMT, it allows for a field theory description of systems with a chemical potential temperature, which is the holographic dual of a charged black hole. This application, sometimes referred the/CMT correspondence, includes models of superconductors and superfluids, the thermal behavior of Fermi liquids, holographic models of Weyl semimetal states, and the study of field theory hydrodynamics using gravitational solutions. This particular aspect of holography is sometimes referred to as gauge/gravity duality. As mentioned earlier, the presence of temperature in the gauge field theory corresponds to the existence of a black hole in the realm of gravity. Hence, the exploration of black hole dynamics holds significance in holographic studies. Additionally, black holes are also important from another holographic perspective. The area of the event horizon of a black hole serves as the holographic equivalent of its entropy, while the surface gravity of the black hole acts as the holographic equivalent of its temperature. Thus, studying black hole thermodynamics becomes easier. In essence, it resembles a hologram where the maximum amount of information contained in the bulk is proportional to its surface area. In the confinement state of physics at low temperatures, the only configuration present is a connected eight-brane. At a finite chemical potential, there is a second-order phase transition to a nuclear matter phase. Additionally, the chiral dynamics of hadrons, such as baryons, can be studied using holography to calculate their binding energy. This can be tested in experiments and is representative of strongly coupled QCD. One of the significant applications of holography is the study of the nuclear force using string theory. These applications of holography in nuclear physics are another aspect of AdS/QCD. Holographic dark energy is the term used to describe the application of the holographic principle to the problem of dark energy in cosmology. Additionally, the study of de Sitter space-time and inflation is significant from both the dS/CFT and AdS/CFT correspondence perspectives. By using holographic descriptions, it is possible to establish connections between cosmological observables, such as the primordial power spectrum, and the correlation functions of a quantum field theory. Neutron stars are intriguing objects in astronomy astrophysics due to their potential application inraphy. These stars matter with low temperature but extremely high density, which allows for the presence of a deconfined quark phase. However, their temperature is not sufficiently high for perturbative QCD to be applicable. Therefore, the AdS/CFT correspondence can be utilized to investigate the equation of state of neutron stars. In this scenario, it has been proposed that degenerate composite operators of the conformal field theory (CFT) can be regarded as the holographic dual to degenerate stars in AdS space. The applications of holography in laser and photonics are diverse and fascinating. They include tasks like reconstructing images of objects, creating innovative laser beams, and developing new designs for photonic micro- and nano-structures, among others. For over two decades, holography applications in physics have been a captivating and significant area of research, resulting in the publication of hundreds of papers. Recognizing the importance of holography and its applications, the founder of JHAP established this journal to encompass all aspects related to holography. --> Journal of Holography Applications in Physics = Journal of Holography Applications in Physics (JHAP) covers all areas related to the holographic principle in physics. The holographic principle prepares the powerful tools to study several phenomena in various branches of physics. The aim of JHAP is to collect all applications of holography for the theoretical and experimental communities.

JHAP is fully sponsored by Damghan University. The reviewing and publishing process is completely free of charge. The Ithenticate software is used to check similarity of submitted papers. If any aspects of plagiarism caught, your manuscript may be rejected without review and your institution informed. This journal published since autumn 2021 and has three volumes, 11 issue, 56 article so far. The JHAP accepts variety of formats of articles with the conditions listed on the https://jhap.du.ac.ir/journal/authors.note,

including: Review Articles, Regular Articles and Scientific Notes and Letters.

JHAP presents new and original research results in theoretical and experimental applications of holographic principle in all areas of physics, including condensed matter physics, physics of elementary particle s and fields, nuclear physics, astronomy and astrophysics, gravitation and cosmology, statistical mechanics and thermodynamics, quantum physics, optics, laser and photonics.

All articles published JHAP will be available in the journal profile: http://jhap.du.ac.ir/

Journals related to Journal of Holographic Applications in Physics
Journal of Nuclear Research and Applications

Scientific researches in theoretical and applied physics

International Journal of Reliability, Risk and Safety: Theory and Application

Synthesis and Effusion Quarterly

Quarterly Journal of Radiation Physics and Engineering

Journal of Interfaces, Thin Films and Low Dimensional Systems

Journal of Nonlinear Analysis and Applications

Journal information
Licensee: Damghan University

Registration date: 11 Mehr 1400

Journal language: English

Place of publication: Iran

Special code of the journal: JR_JAHP

Organizational structure of Journal of Applications of Holography in Physics
Director-in-Charge: Dr. Behnam Pourhasan

Editor-in-Chief : Dr. S Ahmad Ketabi

Executive Managers: Dr. Mir Faizal and Dr.Yasser Rajabi