Your search keyword '"Ali Ashrafzadeh"' showing total 4 results

1. Primordial Black Holes in Scalar Field Inflation Coupled to the Gauss–Bonnet Term with Fractional Power-law Potentials

Author

Ali Ashrafzadeh and Kayoomars Karami

Subjects

Cosmic inflation, Primordial black holes, Gravitational waves, Astrophysics, QB460-466

Abstract

In this study, we investigate the formation of primordial black holes (PBHs) in a scalar field inflationary model coupled to the Gauss–Bonnet term with fractional power-law potentials. The coupling function enhances the curvature perturbations, then results in the generation of PBHs and detectable secondary gravitational waves (GWs). We identify three separate sets of parameters for the potential functions of the form ϕ ^1/3 , ϕ ^2/5 , and ϕ ^2/3 . By adjusting the model parameters, we decelerate the inflaton during the ultra-slow-roll phase and enhance curvature perturbations. Our calculations predict the formation of PBHs with masses of ${ \mathcal O }(10){M}_{\odot }$ , which are compatible with LIGO-Virgo observational data. Additionally, we find PBHs with masses around ${ \mathcal O }({10}^{-6}){M}_{\odot }$ and ${ \mathcal O }({10}^{-5}){M}_{\odot }$ , which can explain ultra-short-timescale microlensing events in OGLE data. Furthermore, our proposed mechanism could lead to the formation of PBHs in mass scales around ${ \mathcal O }({10}^{-14}){M}_{\odot }$ and ${ \mathcal O }({10}^{-13}){M}_{\odot }$ , contributing to approximately 99% of the dark matter in the Universe. We also study the production of secondary GWs in our model. In all cases of the model, the density parameter of secondary GWs ${{\rm{\Omega }}}_{{\mathrm{GW}}_{0}}$ exhibits peaks that intersect the sensitivity curves of GW detectors, providing a means to verify our findings using data of these detectors. Our numerical results demonstrate a power-law behavior for the spectra of ${{\rm{\Omega }}}_{{\mathrm{GW}}_{0}}$ with respect to frequency, given by ${{\rm{\Omega }}}_{{\mathrm{GW}}_{0}}{(f)\sim (f/{f}_{c})}^{n}$ . Additionally, in the infrared regime where f ≪ f _c , the power index takes a log-dependent form, specifically $n=3-2/\mathrm{ln}({f}_{c}/f)$ .

Published

2024

2. Nobiletin in cancer therapy; mechanisms and therapy perspectives

Author

Najafi, Masoud, primary, Moazamiyanfar, Reza, additional, Rezaei, Sepideh, additional, Ali Ashrafzadeh, Hasan, additional, Rastegar-Pouyani, Nima, additional, Jafarzadeh, Emad, additional, Mouludi, Kave, additional, Khodamoradi, Ehsan, additional, Zhale, Mohsen, additional, and Taeb, Shahram, additional

Published

2023

3. Nobiletin in cancer therapy; mechanisms and therapy perspectives

Author

Masoud Najafi, Reza Moazamiyanfar, Sepideh Rezaei, Hasan Ali Ashrafzadeh, Nima Rastegar-Pouyani, Emad Jafarzadeh, Kave Mouludi, Ehsan Khodamoradi, Mohsen Zhale, and Shahram Taeb

Subjects

Pharmacology, Drug Discovery

Abstract

Abstract: Cancer has remained to be one of the major challenges in medicine and regarded as the second leading cause of death worldwide. Different types of cancer may resist anti-cancer drugs following certain mutations such as those in tumor suppressor genes, exhaustion of the immune system, and overexpression of drug resistance mediators, which increase the required concentration of anticancer drugs so as to overcome drug resistance. Moreover, treatment with a high dose of such drugs is highly associated with severe normal tissue toxicity. Administration of low-toxic agents has long been an intriguing idea to enhance tumor suppression. Naturally occurring agents e.g., herb-derived molecules have shown a dual effect on normal and malignant cells. On the one hand, these agents may induce cell death in malignant cells, while on the other hand reduce normal cell toxicity. Nobiletin, one of the well-known polymethoxyflavones (PMFs), has reportedly shown various beneficial effects on the suppression of cancer and the protection of normal cells against different toxic agents. Our review aims to explain the main mechanisms underlying nobiletin as an inhibitor of cancer. We have reviewed the mechanisms of cancer cell death caused by nobiletin, such as stimulation of reactive oxygen species (ROS), modulation of immune evasion mechanisms, targeting tumor suppressor genes, and modulation of epigenetic modulators, among others; the inhibitory mechanisms of nobiletin affecting tumor resistance properties such as modulation of hypoxia, multidrug resistance, angiogenesis, epithelial-mesenchymal transition (EMT) have been fully investigated. Also, the inhibition of anti-apoptotic and invasive mechanisms induced by nobiletin will later be discussed. In the end, protective mechanisms of nobiletin on normal cells/tissue, clinical trial results, and future perspectives are reviewed.

Published

2023

4. A novel comprehensive optimal PMU placement considering practical issues in design and implementation of a wide-area measurement system

Author

Moossa Khodadadi Arpanahi, Roozbeh Torkzadeh, Arash Safavizadeh, Ali Ashrafzadeh, Fariborz Eghtedarnia, and Electrical Energy Systems

Subjects

Wide-area measurement system (WAMS), Optimal PMU placement (OPP), Energy Engineering and Power Technology, Mixed-integer linear programming (MILP), Phasor measurement unit (PMU), Electrical and Electronic Engineering

Abstract

Since phasor measurement units (PMUs) are increasingly installed in power systems, many research works have investigated the optimal PMU placement (OPP) problem with the sake of maximizing observability over the power grid, while minimizing the cost of purchasing PMUs. However, there are still some practical challenges that have not been considered in the previous research studies, and are needed to be addressed for a real wide-area measurement system (WAMS) implementation. In this paper, a comprehensive OPP model is proposed which employs a set of basic and novel constraints for a WAMS design. In this regard, the line-wise observability concept is proposed for the first time to consider the requirements of observability for a range of WAMS-based applications such as restoration management, model validation of power system components, and dynamic line rating (DLR) monitoring. In addition, observability constraints for multi-transmission system operator (multi-TSO) power systems that are operated by different legal entities are provided, which can considerably affect the OPP result. The proposed model is formulated based on a mixed-integer linear programming (MILP) formulation which enables the optimization problem to be solved easily and effectively by existing commercial optimization tools, without any need for linearization. The performance of the proposed OPP model is first verified through simulation results on an 86-bus real power system. Then, simulations are applied to IEEE 118-bus and 300-bus test systems, to certify the performance of the proposed model in comparison with other OPPs in the literature.

Published

2023