Conveners
Regular Sessions: Alternative gravity phenomenology
- Mariusz Dabrowski (University of Szczecin)
Regular Sessions: Alternative gravity phenomenology
- Marek Biesiada (National Center for Nuclear Research)
Regular Sessions: Alternative gravity and fundamental theories
- Marek Biesiada (National Center for Nuclear Research)
Regular Sessions: Alternative gravity and fundamental theories
- Marek Rogatko (Maria Curie Sklodowska University)
Regular Sessions: Alternative gravities, gravitational waves and compact objects
- Miguel Zumalacarregui (University of California at Berkeley)
Regular Sessions: Quantum gravity as alternative gravity
- Piotr Sułkowski (University of Warsaw)
Regular Sessions: Alternative gravities and dark energy
- Jackson Levi Said (University of Malta)
Regular Sessions: Alternative gravities and dark energy
- Noemi Frusciante (Instituto de Astrofísica e Ciências do Espaço)
Regular Sessions: Alternative gravities, gravitational waves and compact objects
- Andrzej Krolak (Polish Academy of Sciences)
Regular Sessions: Alternative gravity phenomenology
- Michal Artymowski (Ariel University)
Regular Sessions: Alternative gravities and dark matter
- Antonio L. Maroto (Universidad Complutense de Madrid)
Regular Sessions: Alternative gravities, gravitational waves and compact objects
- Antonio L. Maroto (Universidad Complutense de Madrid)
Regular Sessions: Alternative gravities and dark energy
- Emmanuel N. Saridakis (National Observatory of Athens / University of Science and Technology of China)
Regular Sessions: Alternative gravities and dark matter
- Tessa Baker (Queen Mary University of London)
Regular Sessions: Alternative gravity and fundamental theories
- Giulia Gubitosi
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Dr Michal Artymowski (Ariel University)06/09/2021, 12:30Talk/seminar
Unparticles are a hypothetical new form of matter created from fermions in an SU(N) gauge theory. Unparticles provide a wide spectrum of new cosmological applications. In my talk (based on arxiv:2010.02998 and arxiv: 1912.10532), I will show that they can display a cosmological-constant-like behavior, and since then they can be used to generate cosmic inflation or dark energy. I will show...
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Andrea Giusti (ETH Zürich)06/09/2021, 12:50Talk/seminar
In the 90s it was shown that the Einstein equation could be understood as an equation of state, general relativity as the equilibrium state of gravity, and f(R) gravity as a non-equilibrium one. In this presentation I discuss how the application of Eckart's first order thermodynamics to the effective dissipative fluid describing scalar-tensor gravity leads to a thermodynamics for the space of...
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Mr Samuel Barroso Bellido (University of Szczecin)06/09/2021, 13:10Talk/seminar
Recently the entanglement entropy between universes has been calculated, an entropy which somehow describes the quantumness of a homogeneous multiverse. The third quantization formalism of canonical quantum gravity is used here. Improvements of the results in a more general scenario will be shown, studying what happens at critical points of the evolution of a classical universe. Besides, we...
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Sebastián Franchino-Viñas (Universidad Nacional de La Plata)06/09/2021, 14:30Talk/seminar
The primordial abundance of lithium is still a subject of controversy, given the disagreement between numerical results and observational estimates. We show how this discrepancy can be understood in the context of variation of fundamental constants at the epoch of Big Bang Nucleosynthesis. The variation of Newton's constant plays a crucial role. In particular, its interpretation in terms of...
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Dr Konstantin Zloshchastiev (Durban University of Technology)06/09/2021, 14:50Talk/seminar
Using the logarithmic superfluid model, one can formulate quantum post-relativistic theory of superfluid vacuum, which contains special and general relativity in the “phononic” (low-momenta) limit, but differs at higher momenta. According to the theory, an effective gravitational potential is induced by the quantum wavefunction of physical vacuum in a stationary state, while the vacuum itself...
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Ekim Taylan Hanımeli (Universität Bremen)06/09/2021, 15:10Talk/seminar
The accelerated expansion of the Universe implies the existence of an energy contribution known as dark energy. Associated with the cosmological constant in the standard model of cosmology, the nature of this dark energy is still unknown. In this talk I will discuss an alternative gravity model in which this dark energy contribution emerges naturally, as a result of allowing for a...
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Jerome Quintin (Max Planck Institute for Gravitational Physics (Albert Einstein Institute), Potsdam)06/09/2021, 15:30Talk/seminar
The principle of finite amplitudes postulates that semi-classical transition amplitudes from the early universe up to current field values should be well defined. We will show in this talk that the application of this simple principle has strong theoretical constraining power for fundamentally motivated alternative theories of gravity and their solutions for the very early universe. In...
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Prof. Eduardo Guendelman (Ben Gurion University)06/09/2021, 15:50Talk/seminar
If we are so eager to modify gravity, why can´t we modify string theory?, which in turn can give us even more modified gravity theories. For example the string tension does not have to be put in by hand, it can be dynamically
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generated, as in the case when we formulate string theory in the modified measure formalism.
For gravity theories, the modified measure formalism gives a dynamical... -
Dr Laur Järv (University of Tartu)06/09/2021, 16:10Talk/seminar
We reconsider the dynamical systems approach to analyze inflationary universe in the Jordan frame models of scalar field nonminimally coupled to curvature or torsion. The adopted set of variables allows us to clearly distinguish between different asymptotic states in the phase space, including the kinetic and inflationary regimes. Inflation is realized as a heteroclinic trajectory originating...
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Mr Andrew Finch (University of Malta)06/09/2021, 17:50Talk/seminar
Both a metric and a tetrad $3+1$ formulation for a general affine connection is developed while also assuming nonmetricity. By splitting the space-time metric and tetrad into their spatial and temporal parts as well as through finding the Gauss-like equations for any tensor through which gravity is expressed, a general foundation for the formalisms is set up. Based on this foundation the...
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Yu-Hsien Kung (National Taiwan University)06/09/2021, 18:10Talk/seminar
In the semi-classical regime, quantum fluctuations embedded in a Riemannian spacetime can be effectively recast as classical back reactions and manifest themselves in the form of non-minimal couplings between matter and curvature. In this work, we exhibit that this semi-classical description can also be applied within the Teleparallel formulation. In the Teleparallel description, quantum...
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Mr SNEHASISH BHATTACHARJEE06/09/2021, 18:30Talk/seminar
In this work, we investigate gravitational baryogenesis in the framework of f(P) gravity to understand the applicability of this class of modified gravity in addressing the baryon asymmetry of the Universe. For the analysis, we set f(P)=αP where α is the model parameter. We found that in f(P) gravity, the CP-violating interaction acquires a modification through the addition of the...
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Dr Aneta Wojnar (Tartu University)07/09/2021, 14:30Talk/seminar
I will present an impact of alternative theories of gravity on low-mass (sub-)stellar objects' evolution and properties. I will also demonstrate how seismic data acquired from earthquakes and marsquakes could be use to test theories of gravity.
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Aizhan Myrzakul (Nazarbayev University)07/09/2021, 14:50Talk/seminar
CGHS black holes have rightfully garnered much attention over the last few decades as the models are simplified (1+1)-dimensional versions of black hole evaporation. Their solubility has lead to tractable physical insights into the radiative process. Concurrently, moving mirrors are well-known simplified (1+1)-dimensional models for black hole evaporation. We synthesize the two by finding an...
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Bartłomiej Kiczek07/09/2021, 15:10Talk/seminar
It is an observationally established fact that dark matter forms large scale structures in the intergalactic space. However it is not fully known if any structures can emerge on the stellar scale and if so, what would they look like.
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In this short talk I will discuss the possibilities of the emergence of axionlike particle (ALP) clouds around compact objects, such as black holes. Using... -
Muhammad Sharif (University of the Punjab)07/09/2021, 15:30Talk/seminar
This work explores the effects of charge on a peculiar stellar object, recognized as gravastar, under the influence curvature-matter coupling gravity. The gravastar is also known as an alternative to a black hole and is expressed by three distinct domains named as (i) the interior domain, (ii) the intermediate shell and (iii) the exterior domain. We analyze these domains for a specific...
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Johannes Münch (Aix-Marseille Université, Université de Toulon, CPT, CNRS)07/09/2021, 15:50Talk/seminar
The fate of matter forming a black hole is still an open problem, although models of quantum gravity corrected black holes are available. In loop quantum gravity (LQG) models were presented, which resolve the classical singularity in the centre of the black hole by means of a black-to-white hole transition, but neglect the collapse process. The situation is similar in other quantum gravity...
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Mariana Carrillo Gonzalez (Imperial College London)07/09/2021, 16:10Talk/seminar
Amplitude methods have shown to be a promising technique to perform Post-Minkowskian calculations used as inputs to construct gravitational waveforms. In this talk, I will show how to extend these methods beyond GR. As proof of principle, I will consider spinless particles conformally coupled to a gravitational helicity-0 mode. This setup leads to subtleties in the matching procedure used to...
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gioele botta (university of warsaw)07/09/2021, 16:50Talk/seminar
During the last years many inspired Loop Quantum Gravity (LQG) models for homogeneous cosmology were carefully studied, however all these models required extra input to be self consistent. In this talk I will briefly present a gauge fixed version of LQG adapted to cosmological systems. The interesting feature of this model is the resulting cosmological dynamics: by using the full structure of...
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Dr Igor Kanatchikov07/09/2021, 17:10Talk/seminar
We will review our previous work on precanonical quantization of GR and the recent work on precanonical quantization of the teleparallel equivalent of GR. Both approaches are based on Palatini formulations in vielbein variables and the analysis of constraints within the De Donder-Weyl Hamiltonian formulation which treats space and time variables on equal footing. In both theories, we obtain...
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Zbigniew Drogosz (Jagiellonian University Krakow)07/09/2021, 17:30Talk/seminar
In non-smooth and discrete metric spaces of some models of quantum gravity, e.g., those based on Ricci calculus, it is a nontrivial task to introduce a notion of curvature that works at any length scale down to the cutoff scale and in the continuum limit converges to a curvature defined in terms of the Riemann tensor. The recently introduced quantum Ricci curvature has those properties. In...
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Mr Yannick Kluth (University of Sussex)07/09/2021, 17:50Talk/seminar
Higher order extensions of Einstein gravity play important roles in various areas such as cosmology, the early universe or quantum gravity. In this talk, I will take a look into quantum properties of general higher order extensions of gravity provided that they depend on the Riemann tensor and the inverse metric. Using the functional renormalisation group, a flow equation for such theories is...
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Rafael Jiménez07/09/2021, 18:10Talk/seminar
There is an increasing interest in cosmological models with scalar fields that present kinetically dominated phases in their evolution, since these may have played a relevant role in the very early stages of the Universe and lead to modifications in observable quantities, e.g. the cosmic microwave background. The departures of this scenario from standard slow-roll inflation prevent one for...
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Prof. Leslaw Rachwał (UFJF, ICE)07/09/2021, 18:30Talk/seminar
The exact one-loop beta functions for the four-derivative terms (Weyl tensor squared, Ricci scalar
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squared, and the Gauss-Bonnet) are derived for the minimal six-derivative quantum gravity (QG)
theory in four spacetime dimensions. The calculation is performed by means of the Barvinsky and
Vilkovisky generalized Schwinger-DeWitt technique. With this result we gain, for the first time,... -
Noemi Frusciante (Instituto de Astrofísica e Ciências do Espaço)08/09/2021, 12:30Talk/seminar
The standard cosmological model, LCDM, is based on General relativity and assumes the Universe is made of a Dark energy component in the form of a cosmological constant (L). Although LCDM gives an astonishing description of the Universe, the model shows some shortcomings: the so-called cosmological constant problems.Furthermore, some mild observational tensions among different datasets...
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Michal Zajacek (Center for Theoretical Physics, Polish Academy of Sciences)08/09/2021, 12:50Talk/seminar
In the previous works, using the SALT measurements of three luminous quasars, we confirmed the presence of the Broad Line Region radius-luminosity relation for the ultraviolet line of MgII. Together with SDSS-RM as well as Oz-DES datasets, we studied the classical as well as extended versions of the radius-luminosity (RL) relation. Using 78 sources, we simultaneously fitted the parameters of...
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Xiankai Pang (LMU Munich)08/09/2021, 13:10Talk/seminar
We analyse the emergent cosmological dynamics corresponding to the mean field hydrodynamics of quantum gravity condensates, in the tensorial group field theory formalism. We focus in particular on the cosmological effects of fundamental interactions, and on the contributions from different quantum geometric modes. The general consequence of such interactions is to produce an accelerated...
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Saikat Chakraborty08/09/2021, 13:30Talk/seminar
ΛCDM model to date remains the best observationally fitting model for late time cosmology. However, this model suffers from the theoretical issue that the quantum vacuum energy, which is the only known candidate for Λ, gives from QFT calculation a value that mismatches with the observed value of Λ by orders of magnitude. This theoretical issue motivated the search for alternative late-time...
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Nihan Katırcı (Doğuş University)08/09/2021, 14:30Talk/seminar
In the first part of this talk, I will review the Hubble tension and then describe some theoretical efforts to alleviate it---as well as the discrepancy with the BAO Lyman-α data — via the dark energy models that yield negative density values in the past. I will then discuss a recent work with two minimal extensions of the ΛCDM model, together or separately, can realize such a scenario: (i)...
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Eoin O Colgain (Sogang University)08/09/2021, 14:50Talk/seminar
I will motivate how moving beyond the FLRW paradigm may be the only way to resolve Hubble tension.
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Prof. Pradyumn Kumar Sahoo (Birla Institute of Technology and Science-Pilani, Hyderabad Campus)08/09/2021, 15:10Talk/seminar
In this paper we have investigated a bulk viscous universe in $f(R,T)$ gravity where $R$ and $T$ are the Ricci scalar and trace of energy momentum tensor respectively. We have obtained explicit solutions of field equations in modified gravity by considering the power law form of scale factor. The Hubble parameter and deceleration
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parameter are derived in terms of cosmic time and redshift... -
Jackson Levi Said (University of Malta)08/09/2021, 15:30Talk/seminar
Cosmological tensions in recent measurements of both Hubble expansion and the growth of structure in the Universe has led to a reconsideration of certain aspects of the concordance model of standard cosmology. One part of this comes from the growing tension between observations that are independent of cosmological models against others that are dependent on $\Lambda$CDM. To this end, the...
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Dr Miguel Zumalacarregui (University of California at Berkeley)08/09/2021, 17:10Talk/seminar
Gravitational lensing of light is a well established test of gravity. However, little is known about how gravitational waves (GW) propagate beyond the simplest space-times in theories beyond Einstein’s General Relativity (GR). I will present a framework for GW lensing beyond GR at leading order in frequency. The modified causal structure and kinetic mixing between metric and additional degrees...
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Alfredo Delgado Miravet (Universidad Complutense de Madrid)08/09/2021, 17:30Talk/seminar
We study the effects of cosmological vector fields on the propagation of gravitational waves (GWs). The so-called dark sector in Cosmology remains unexplained, even though it makes up most of the content of the Universe. This fact has led to the proposal of several models of dark matter, dark energy or dark radiation. Among them, we can find some based upon vector fields (such as ultralight...
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MISBA AFRIN (JAMIA MILLIA ISLAMIA)08/09/2021, 17:50Talk/seminar
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93. Gravitational Wave Propagation and Polarizations in the Teleparallel analog of Horndeski GravityMaria Caruana (University of Malta)08/09/2021, 18:10Talk/seminar
Gravitational waves (GWs) have opened a new window of fundamental physics in a number of important ways. The next generation of GW detectors may reveal more information about the polarization structure of GWs. Additionally, there is growing interest in theories of gravity beyond GR. One such theory which remains viable within the context of recent measurements of the speed of propagation of...
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Bivudutta Mishra (BITS-Pilani, Hyderabad Campus)09/09/2021, 14:30Talk/seminar
In the context of the late time cosmic acceleration phenomenon, many geometrically
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modified theories of gravity have been proposed in recent times. In this paper, we have investigated the role of a recently proposed extension of symmetric teleparallel gravity dubbed as f(Q,T) gravity in getting viable cosmological models, where Q and T respectively denote the non-metricity and the trace of... -
Jakub Supeł (University of Cambridge)09/09/2021, 14:50Talk/seminar
Flat space theories of spinning particles must obey nontrivial consistency conditions that follow from locality, unitarity and gauge invariance. These conditions are especially powerful in the case of Lorentz invariant theories of massless particles, where they have been used to derive the gravitational equivalence principle, among other interesting results. In a recent paper, we have shown...
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Jan Kwapisz09/09/2021, 15:10Talk/seminar
Recently, based on swampland considerations in string theory, the (no) eternal inflation principle has been put forward. The natural question arises whether similar conditions hold in other approaches to quantum gravity. In this talk I will discuss the asymptotic safety hypothesis in the context of eternal inflation. As exemplary inflation- ary models the SU(N) Yang-Mills in the Veneziano...
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Zurab Tavartkiladze (Ilia State University)09/09/2021, 15:30Talk/seminar
Taking the minimalistic approach, within MSSM, we propose the model of inflation in which the inflaton field is a scalar component of the MSSM state(s).
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The proposed model turns out to be very predictive. The inflationary phase is fully governed by the MSSM Yukawa superpotential couplings. The values of the scalar spectral index and the tensor-to-scalar ratio are predicted to be ns≃0.966 and... -
Hareesh Thuruthipilly (National Center for Nuclear Research, Poland)09/09/2021, 15:50Talk/seminar
Based on connections between gravity and thermodynamics, interpreting the dynamics of the universe as a quest for achieving holographic equipartition is a novel concept proposed by Padmanabhan. However, the generalization of Padmanabhan's conjecture to the non-flat universe had resulted in uncertainty about the choice of volume. We have shown that the exact mathematical formulation of the...
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Seyed Meraj Rasouli (Universidade da Beira Interior)09/09/2021, 16:10Talk/seminar
By proposing an appropriate dynamical deformation between the momenta associated with the scalar field (of the Sáez–Ballester theory) and scale factor of the spatially flat FLRW metric, we establish a modified cosmological model. Subsequently, for some particular cases, by focusing on the early epoch of the universe, we show that our model provides a more successful description for evolution...
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Dr Adil Jueid (Konkuk University)09/09/2021, 16:50Talk/seminar
I discuss in this talk a new formulation of dark-matter (DM) coupling to gravity. Unlike the Standard Model (SM) sector which couples to the metric, DM couples to the spacetime affine connection through a $Z_2$-symmetry breaking term. I will show that such a structure allows DM to be only scalar particles (unlike the other alternative gravities). I discuss the different decay modes of DM in...
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Dr Vesselin Gueorguiev (Institute for Advanced Physical Studies (IAPS), Sofia, Bulgaria)09/09/2021, 17:10Talk/seminar
We will review the Scale Invariant Vacuum idea as related to Weyl Integrable Geometry. Main results related to SIV and inflation [1], the growth of the density fluctuations [2], and application of the SIV to scale-invariant dynamics of Galaxies, MOND, Dark Matter, and the Dwarf Spheroidals [3] will be summarized. If time permits, a potential connection of the weak field SIV results to the...
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Roberto Casadio (Bologna University and INFN)09/09/2021, 17:30Talk/seminar
We present a simple quantum description of the Universe in which the effective de Sitter spacetime geometry emerges from a coherent state of background gravitons. Once localised baryonic matter is added consistently, this quantum state is shown to contain the necessary components to describe MoND phenomenology at galactic scales and possibly explain the tension between values of the Hubble...
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Bertha Cuadros-Melgar (USP)09/09/2021, 17:50Talk/seminar
We study the relation between quasinormal modes and geodesic quantities recently brought back due to the black hole shadow observation by Event Horizon Telescope. With the help of WKB method we found an analytical relation between the real part of quasinormal frequencies at the eikonal limit and shadow radius of the same black hole. Some examples fulfilling the correspondence are provided.
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Dr Che-Yu Chen (Institute of Physics, Academia Sinica)09/09/2021, 18:10Talk/seminar
Testing strong gravity regimes such as the vicinity of black holes is likely to be attainable with the future developments of observing technology. In this talk, adopting a theory-agnostic approach, we first propose a class of Kerr-like rotating black holes, whose Z_2 symmetry is generically broken. We focus on the possibility that such a violation of Z_2 symmetry is induced by the spin of the...
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Saboura sadat Zamani (Golestan University, Iran)09/09/2021, 18:30Poster
One of the consequences of Einstein’s general theory of relativity is bending of light as it passes through a gravitational field. Examining the path of light in a very strong gravitational field of a black hole can provide a huge amount of information about the geometry and characteristics of the surrounding space.
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On the other hand, the path of light rays, extent, and shape of gravitational... -
Ruth Lazkoz (University of the Basque Country)10/09/2021, 12:30Talk/seminar
Over the last years some interest has been gathered by f(Q) theories, which are new candidates to replace Einstein’s prescription for gravity. The nonmetricity tensor Q allows to put forward the assumption of a free torsionless connection and, consequently, new degrees of freedom in the action are taken into account. This work focuses on a class of f(Q) theories, characterized by the presence...
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Rebecca Briffa (University of Malta)10/09/2021, 12:50Talk/seminar
We perform observational tests on the $f(T) $ gravity using the Cosmic Chronometer data, SNIa data and BAO data together with three different independent measurements of the current value of $H_0$. In this work, we investigate the impact of these priors on five core models in $f(T)$ gravity. In addition, we perform background studies on these models to better distinguish the impacts of the...
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Dr Daniele Vernieri (University of Naples "Federico II")10/09/2021, 13:10Talk/seminar
Cyclic universes with bouncing solutions are candidates for solving the big bang initial singularity problem. Here I will look for bouncing solutions in the context of modified theories of gravity whose field equations contain up to fourth-order derivatives of the metric tensor. In finding such bouncing solutions I will resort to an order reduction technique that reduces the order of the...
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Lorenzo Pizzuti (FCF- Astronomical Observatory of the Autonomous Region of Aosta)10/09/2021, 14:30Talk/seminar
Galaxy clusters constitute a powerful tool to investigate modification of gravity at cosmological scales; in particular, with the combination of cluster’s mass profiles derived with lensing and internal kinematic analyses, it is possible to constrain departures from General Relativity in a complementary way with respect to other cosmological and astrophysical probes. In this context, I will...
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IVAN DE MARTINO (Universidad de Salamanca)10/09/2021, 14:50Talk/seminar
We have shown the potential of next-generation astrometric satellites for distinguishing between a cusp and a core in the dark matter density profile. This goal can be achieved with the measure of the proper motions of at least 6000 stars within a nearby dwarf galaxy with an accuracy of 1 km~s$^{-1}$ at most. We have built mock star catalogues similar to those expected in future astrometric...
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Andrius Tamosiunas (University of Nottingham)10/09/2021, 15:10Talk/seminar
In this talk I will review the recent results of a numerical study of chameleon gravity in the context of galaxy clusters and cosmic voids. In this study we solved the chameleon field equation for NFW halos and cosmic void density profiles for the currently observationally viable chameleon models. The obtained results shine light on the non-trivial relationship between the NFW halo parameters...
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Francesco Pace (University of Bologna)10/09/2021, 15:30Talk/seminar
The quasi-static approximation (QSA) is a useful tool to get a quick and clear physical understanding of the phenomenology of modified gravity which is encoded in two functions (of scale and time): the effective gravitational constant (describing the modified evolution of matter perturbations) and the slip (parametrizing the relations between the two gravitational potentials). This...
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Ashim Sen Gupta (Queen Mary University of London)10/09/2021, 15:50Talk/seminar
With the advent of surveys such as the Legacy Survey of Space and Time (LSST), there will be opportunities in the near future to study nonlinear aspects of modified gravity (MG) theories through weak lensing and galaxy clustering measurements. These will be important in constraining the theory space for MG theories with screening effects, which are manifestly nonlinear. As the typical method...
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Dr Luciano Petruzziello (University of Salerno & INFN - National Institute for Nuclear Physics)10/09/2021, 16:30Talk/seminar
Schemes of gravitationally induced decoherence are being actively investigated as possible mechanisms for the quantum-to-classical transition. In this talk, I introduce a decoherence process attributable to quantum gravity effects. In particular, I assume a foamy quantum spacetime with a fluctuating minimal length coinciding on average with the Planck scale. Considering deformed canonical...
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Andrzej Sitarz (Jagiellonian University)10/09/2021, 16:50Talk/seminar
The tools of spectral geometry lead to the derivation of the action functionals both for gauge theories and gravity. The simplest, mildly noncommutative models with a product geometry give the standard Yang-Mills-Higgs models and the General Relativity action with a cosmological constant. An interesting situation occurs when the geometry is not of the product type, thus allowing the metric to...
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Aleksandra Piórkowska-Kurpas (University of Silesia in Katowice)10/09/2021, 17:10Talk/seminar
The idea of massive graviton plays a fundamental role in modern physics as a landmark of most scenarios related to the modification of the theory of gravity. Limits on graviton mass can be obtained with capabilities of multi-messenger astronomy. In particular, non-zero graviton mass would modify estimates of the total cluster mass (Yukawa term influences Newtonian potential). This can be...
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Syed Umair (Jagiellonian Universtiy)10/09/2021, 17:30Talk/seminar
The phenomena of standing waves are mostly studied in the context of mechanical or electromagnetic waves. In the context of General Relativity, the issue of how to define standing gravitational waves was addressed by Bondi and later by Stefani. We investigate an expanding universe filled with standing gravitational waves. We study how freely falling particles in this spacetime behave, namely,...
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Sujoy Modak (Universidad de Colima)Talk/seminar
Approaches to Quantum Gravity (QG) often propose a fundamental minimal length scale in Nature irrespective of our measurement precision. This scale is believed to be at or near the Planck length (10^{-35} m), which also makes it unlikely to be probed directly. In this talk, we put forward a mechanism, recently developed by us, which propose an indirect probe to measure some effects of the...
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Sravan Kumar (Tokyo Institute of Technology)Talk/seminar
The emergence of $R^2$ inflation which is the best fit framework for CMB observations to date comes from the attempts to attack the problem of quantization of gravity which in turn have resulted in the trace anomaly discovery. Further developments in trace anomaly and different frameworks aiming to construct quantum gravity indicate an inevitability of non-locality in fundamental physics at...
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Prof. Roberto Casadio (Bologna University and INFN)Talk/seminar
We present a simple quantum description of compact sources and black holes in which the General Relativistic exterior is reproduced by coherent states but the classical central singularity cannot be resolved because modes of arbitrarily short wavelength are not populated. Quantum corrections to the outer potential are also estimated, which could result in observable effects for the...
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Taum Wuthicharn (Chulalongkorn University)Talk/seminar
A number of near-extremal conditions are utilized to simplify the equation of motion of the
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neutral scalar perturbations in generalized spherically symmetric black hole background into a differential equation with the Pöschl-Teller potential. An analytic formula for quasinormal frequencies is obtained. The analytic formula is then used to investigate Strong Cosmic Censorship conjectures (SCC)...