This book includes peer-reviewed article from the 17th International Conference on Interconnections between Particle Physics and Cosmology (PPC 2024) held from Oct 14–18 in Hyderabad, India. It presents recent developments in particle physics and cosmology, two rapidly growing fields of modern science connecting the micro- to macro-world. With huge success of standard model of particle physics, the Higgs boson discovery at LHC, along with the discovery of neutrino oscillations and gravitational waves, the search for BSM physics and/or new discovery could be around the corner. Advancements and new directions in collider physics, flavor and neutrino physics, dark matter which makes up a significant portion of the universe, baryogenesis, gravitational waves, early and late universe cosmology, dark energy, observational astronomy, cosmic inflation, nuclear astrophysics, large-scale structure, high energy astrophysics, precision cosmology, and exciting results in both theory and experiments are presented.
New Physics with Multi-Messenger Astronomy.- Cosmological constraints
from the first-year BAO measurements of the DESI.- The Pierre Auger
Observatory: Results and Prospects.- Accelerated Fully-coherent Search for
compact binary coalescences.- Searching for Sub-GeV dipolar dark matter using
the Migdal effect.- Gravitational Waves as a Probe of Particle Dark Matter.-
Dark Matter Heating vs. Vortex Creep Heating of Old Neutron Stars.-
Gravitational Waves from Quasistable Cosmic Strings and Pulsar Timing Array
data.- Probing flavor violation and baryogenesis via primordial gravitational
waves.- Observing the unseen: Faraday rotation signatures and Parker bounds
on primordial magnetic black holes.- Assessing Hemispherical Power Asymmetry
in the latest CMB Temperature Data with LVE method.- Low Scale Leptogenesis
and Gravitational Waves.- Boosting HI-Galaxy Cross-Clustering Signal through
Higher-Order Cross-Correlations.- Synchrotron radiation from accelerated
electrons in the magnetized cosmic string wakes.- Singlet-Doublet Fermionic
Dark Matter in Gauge theory of Baryons.- Fall of Casimir energies in
non-commutative space-time.- Magnetic field amplification and decay in cosmic
string wakes.- Effects of Quantum Gravity in the Kerr Black Hole Paradigm.-
Short-Duration GRBs from Magnetic Reconnection in Cosmic Strings Wakes.-
Impact of Finite Temperatures and Ultrastrong Magnetic Fields on Anisotropic
Magnetized White Dwarfs in $\gamma$-metric formalism.- Slow-roll Hilltop
inflation in $f(\phi,T)$ gravity.- Astrophysical Constraints on Black Hole
Formation in Interacting Dark Energy Model.- Aspects of transitivity in
quantum field theory and its possible consequences.- Probing Non-standard
Cosmology Through Sub-earth Mass Halos.- Effect of dark matter on neutron
star observable properties.
Dr. Anjan Giri is a professor of Physics at the Indian Institute of Technology Hyderabad. Giri works on the area of flavor physics, neutrino physics, and on deciphering signals of physics beyond the standard model. He is a member of the Belle collaboration at KEK, Japan, NOvA, and DUNE collaborations at Fermilab, USA. He is known for his work named Giri-Grossman-Soffer-Zupan (GGSZ) method for the determination of CKM phase gamma, being used by Belle II and LHCb experiments.
Dr. Rukmani Mohanta is a professor of Physics at the University of Hyderabad. Mohanta works on phenomenological aspects of neutrino physics, flavor physics, dark matter, and the interplay between the data and theory using beyond the standard model scenarios. She is a member of NOvA and DUNE collaborations at Fermilab, USA. Mohanta is the recipient of the Elsevier Foundation 2011 Organization for Women in Science for the Developing World (OWSD) award for Physics/Mathematics in the Asia-Pacific region.
Lisainfo e-raamatute kohta