Constraining temperature fluctuations in IGM using XQ-100 legacy survey

Saba Etezadrazavi

Department of Physics, Sharif University of Technology

Constraining temperature fluctuations in IGM using XQ-100 legacy survey 

 

Abstract:  Arriving at the peak of Quasar activities, the UV background emitted by the Quasars forced the IGM to experience another re-ionization phase after the hydrogen re-ionization, namely the Helium re-ionization epoch. Investigating this epoch is a crucial step toward understanding the relationship between quasars and their environment as one of the most active cosmological mediums. The XQ-100 legacy survey by VLT X-shooter had provided us with one of the highest resolution Quasar surveys at high redshifts. Armed with this spectroscopic Quasar data and newly developed PCA methods, we can recover the Quasar’s un-absorbed spectrum knowing all the error’s sources and quantify IGM’s thermodynamical quantities around the Helium-reionization epoch. Knowing the IGM absorptions and our error model, for the first time, we are able to constrain temperature fluctuations resulting from the Helium re-ionization observationally that can be used to rule out some of the known re-ionization models.

 

یکشنبه  9 آبان 1400، ساعت 15:00

Sunday 31 October 2021 – 15:00 Tehran Time

اتاق سمینار مجازی –Virtual Seminar Room

https://vc.sharif.edu/ch/cosmology

گزینه ورود به صورت مهمان – Enter as a Guest

Dynamical Tests of Dark Matter in the Milky Way

Robyn E. Sanderson

Department of Physics & Astronomy University of Pennsylvania

Dynamical Tests of Dark Matter in the Milky Way

 

Abstract: The results of the Gaia astrometric mission have ushered in a new era of “precision Galactic dynamics”. Using this new phase-space map of Galactic stars with unprecedented volume and accuracy, we are beginning to obtain new insights into the dark matter distribution in our Galaxy as well as its formation history. Thanks to significant advances on the computational front, meanwhile, we can now compare these insights directly with, and test our modeling strategies on, simulations of Milky-Way-mass galaxies where the influence of baryons and the cosmological context on the dark matter structure are realistically taken into account. I will demonstrate how this convergence of new data and better models improve our understanding of the Milky Way’s dark matter distribution, leading to better constraints on the nature of dark matter.

 

یکشنبه  25 مهر 1400، ساعت 19:00

Sunday 17 October 2021 – 19:00 Tehran Time

اتاق سمینار مجازی –Virtual Seminar Room

https://vc.sharif.edu/ch/cosmology

گزینه ورود به صورت مهمان – Enter as a Guest

زنگ پژوهش (سخنرانی عمومی دانشکده فیزیک)

سوبیر سرکار
استاد دانشگاه آکسفورد
Subir Sarkar
Professor of Physics, University of Oxford

ماورای مدل استاندارد کیهانشناسی

Beyond the cosmological standard model

یکشنبه ۱۸ مهرماه – ساعت یک و نیم بعدازظهر
Sunday 18 Mehr (10 October) – 1:30 pm

Is gravity the only dark matter interaction that matters in the physics of galaxies?

Jesus Zavala Franco

Centre for Astrophysics and Cosmology at the University of Iceland

Is gravity the only dark matter interaction that matters in the physics of galaxies? 

  

Abstract: One of the most relevant problems in Physics is to identify new particles beyond the Standard Model, which can fit the properties of the cosmological dark matter. Despite decades of searching for candidates, the nature of dark matter remains a mystery even though its role in explaining cosmic structure formation has become progressively more fundamental. Analysing the properties of the galaxy population is arguable among the most promising short-term avenues to look for clues to solve the dark matter enigma. In this talk, I will present a broad overview of the status of the allowed impact of new dark matter physics (i.e., beyond its gravity) in the physics of galaxies.

یکشنبه  11 مهر 1400، ساعت 19:00

Sunday 3 October 2021 – 19:00 Tehran Time

اتاق سمینار مجازی –Virtual Seminar Room

https://vc.sharif.edu/ch/cosmology

گزینه ورود به صورت مهمان – Enter as a Guest

سمینار مشترک گروه  ذرات و کیهان شناسی

Sohrab Rahvar

Department of Physics, Sharif University of Technology

Some of the Observational effects of Primordial Black Holes

بعضی از اثرات مشاهداتی سیاهچاله های اولیه

 

Abstract: This talk will be based on

1)    https://journals.aps.org/prd/abstract/10.1103/PhysRevD.103.084001

2)    https://academic.oup.com/mnras/article-abstract/507/1/914/6339282?redirectedFrom=fulltext

 

یکشنبه 4 مهر 1400، ساعت 19:00

Sunday 26 September 2021 – 19:00 Tehran Time

اتاق سمینار مجازی –Virtual Seminar Room

https://vc.sharif.edu/ch/cosmology

گزینه ورود به صورت مهمان – Enter as a Guest

Reheating the Universe after Inflation via Resonant Interactions

Amir Yarahmadi

Department of Physics, Sharif University of Technology

Reheating the Universe after Inflation via Resonant Interactions 

Abstract: The inflation paradigm solves the problems of flatness and homogeneity of the standard cosmological model by considering the exponential expansion for the early universe. It also provides a mechanism for generating density perturbations, which are the core of large-scale structures. One of the successes of inflation is the anticipation of a range of irregular scale perturbations which is well in line with the observations of cosmic background radiation. But after a period of exponential expansion, there will be a cold, empty universe of matter, so there needs to be a process that, after inflation, leads to a hot, standard universe of particles. The two main proposals for achieving standard cosmology are the two theories of warming and hot inflation. In post-inflation reheating theory, considering the coupling between the inflation field and the field as a representative of the standard model field, and considering the effect of the inflation oscillation field, an explosion of particles in the thermal equilibrium can be had. In this study, we examine the effects of producing particles of an extra degree of freedom during and after inflation.

 

یکشنبه  7 شهریور 1400، ساعت 15:00

Sunday 29 August 2021 – 15:00 Tehran Time

اتاق سمینار مجازی –Virtual Seminar Room

https://vc.sharif.edu/ch/cosmology

گزینه ورود به صورت مهمان – Enter as a Guest

HUBBLE TENSION via Bulk flow measurement & Mergers of primordial black holes

Seminar 1:  Bulk flow measurement and Hubble tension

Parinaz Sheikhansari

Department of Physics, Sharif University of Technology

Seminar 2: Mergers of primordial black holes in extreme clusters and the H0 tension

Yasaman Khalaj Masoumi

Department of Physics, Sharif University of Technology

 

Abstract 1: The standard cosmological model has been successful in describing many observations from widely different epochs of the Universe, from primordial nucleosynthesis to the accelerating expansion of the present day. With the improvement of the number and the accuracy of observations, some inconsistencies among key cosmological parameters of the model have emerged. One of these discrepancies is between the early and late time measurements of H0.

Some alternative models are proposed to alleviate H0. The question is how these models predict other cosmological observations. In this work, we measured bulk flow in the LCDM model and the uLCDM model to see how bulk flow changes in uLCDM and investigate whether it can reconcile H0 tension.

Abstract 2: The simplest ΛCDM model provides a good fit to a large span of cosmological data. With the improvement of the number and the accuracy of observations, discrepancies among key cosmological parameters of the model have emerged. The most statistically significant tension is the 4σ to 6σ disagreement between predictions of the Hubble constant. There are many proposals beyond the ΛCDM model to reconcile the tension, like early dark energy (EDE model), primordial magnetic field, mergers of primordial black holes in extreme clusters. The model which we have been focused on is the mergers of primordial black holes in extreme clusters. In this talk, I will discuss several models which proposed PBHs are clustered, therefore, the gravitational waves emitted by collisions of such PBH binaries could resolve the Hubble tension

 

 

یکشنبه 31 مرداد 1400، ساعت 19:00

Sunday 22 August 2021 – 19:00 Tehran Time

اتاق سمینار مجازی –Virtual Seminar Room

https://vc.sharif.edu/ch/cosmology

گزینه ورود به صورت مهمان – Enter as a Guest

Classification of Variable Stars & Accretion disk dynamics

Seminar 1: Hierarchical Classification of Variable Stars Using Deep Convolutional and Recurrent Neural Networks

Mahdi Abdollahi

Department of Physics, Sharif University of Technology

Seminar 2: Accretion disk dynamics and luminosity

Amirhossein Mohammadi

Department of Physics, Sharif University of Technology

 

Abstract 1: The importance of using fast and automatic methods to classify variable stars for a large amount of data is undeniable. There have been many attempts at classifying Variable Stars by traditional algorithms, which require long pre-processing times. In recent years, neural networks as classifiers have come to notice. This paper proposes the Hierarchical Classification technique, which contains several models with the same network structure. We use two pre-processing methods, which produce input data by using light curves and the period. We use the OGLE variable stars’ database to train and test the performance with different models based on the Hierarchical Classification technique. Further, we use Convolutional Neural Networks and Recurrent Neural Networks in the network structure. We see these neural networks work faster than traditional methods and have more accurate predictions. We obtain the best accuracy of 98% for class classification and 92% for subclasses classification.

 

Abstract 2: Accretion disks are disk-like flows of materials that are orbiting a central object in a gravitational potential. We can see these disks as a fluid and discuss their dynamics which we will do in steady and decaying states. The central body of the accretion disks can be stars which, we will discuss the effect of the accretion disk on the luminosity of the star in the steady-state.

 

یکشنبه 24 مرداد 1400، ساعت 19:00

Sunday 15 August 2021 – 19:00 Tehran Time

اتاق سمینار مجازی –Virtual Seminar Room

https://vc.sharif.edu/ch/cosmology

گزینه ورود به صورت مهمان – Enter as a Guest

Periodic step-like features in the inflationary potential

Mohammad Amin Hejazi

Department of Physics, Sharif University of Technology

Periodic step-like features in the inflationary potential

Abstract: Primordial black holes (PBH) are at the forefront of theoretical cosmology since they can explain dark matter, gravitational waves, and more. The enhanced power spectrum of small scales can result in the production of primordial black holes that could be dark matter candidates. In this talk, we discuss step-like features of the inflationary potential resulting in an increase in the power spectrum of curvature perturbations by several orders of magnitude. As part of this research, we apply a number of these features at the same distances periodically in the inflationary slow-roll potential. Furthermore, we apply the floquet theory to better understand how these features optimize power spectrum enhancements. Finally, we estimate the floquet exponent using both analytical and numerical methods in different ranges of feature parameters.

 

 

یکشنبه 17 مرداد 1400، ساعت 19:00

Sunday 8 August 2021 – 19:00 Tehran Time

اتاق سمینار مجازی –Virtual Seminar Room

https://vc.sharif.edu/ch/cosmology

گزینه ورود به صورت مهمان – Enter as a Guest

The mad halos, reasonable evidence for the Tidal Locking Theory

Ehsan Ebrahimian

Department of Physics, Sharif University of Technology

The mad halos, reasonable evidence for the Tidal Locking Theory

Abstract: Many previous studies have shown that the direction of the angular momentum of structures is aligned with their environment.  Some studies tried to explain this with the Tidal Torque Theory (TTT). The TTT is the accepted theory for explaining the origin of the angular momentum of structures. However, we suggested another mechanism that could change the angular momentum of the dark matter halos. This mechanism is called the Tidal Locking Theory (TLT). It is similar to the mechanism that locked the Moon to the Earth via tidal forces. We investigate the IllustrisTNG simulation to find evidence of the TLT and how it affects the spin alignment of the halos. We suggest that the mad halos, halos with high velocity, provide clear evidence of the TLT. Therefore, we recommend that to understand the spin-LSS alignment better, one must look at the halos’ speed and not at their masses.

 

 یکشنبه 10 مرداد 1400، ساعت 19:00

Sunday 1 August 2021 – 19:00 Tehran Time

اتاق سمینار مجازی –Virtual Seminar Room

https://vc.sharif.edu/ch/cosmology

گزینه ورود به صورت مهمان – Enter as a Guest