Conveners
Contributed Talks: Session 2
- Joel Pearson Johansson (Stockholm University)
Contributed Talks: Session 3
- Steve Schulze (Stockholm University)
Contributed Talks: Session 4
- Justin Alsing (Stockholm University)
Contributed Talks: Session 6
- Oindrila Ghosh (Stockholm University)
Contributed Talks: Contributed Talks 7
- Milena Crnogorcevic (Stockholm University)
Contributed Talks: Session 7
- Milena Crnogorcevic (Stockholm University)
Contributed Talks: Session 8
- Metin Ata (Stockholm University)
Contributed Talks: Session 9
- Joshua Eby (Stockholm University)
Contributed Talks: Session 10
- Axel Widmark (Stockholm University)
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Igor Andreoni17/10/2023, 11:30
We live in a golden era for time-domain astronomy. The fourth observing run of the LIGO-Virgo-KAGRA gravitational wave detectors is in full swing and observatories around the world search for rapidly-fading kilonovae associated with binary neutron star mergers. In addition to follow-up campaigns, wide-field surveys such as the Zwicky Transient Facility (ZTF) scan most of the observable sky...
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Nikhil Sarin (Stockholm University)17/10/2023, 11:50
Two neutron stars merge somewhere in the Universe approximately every 10 to 1000 seconds, creating violent explosions potentially observable in gravitational waves and across the electromagnetic spectrum. The transformative coincident gravitational-wave and electromagnetic observations of the binary neutron star merger GW170817 gave invaluable insights into these cataclysmic collisions. And...
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Bhaskar Biswas (Universitรคt Hamburg)17/10/2023, 13:45
In spite of its fragile elegance, General Relativity (GR) is subject to scrutiny due to several factors, such as observational evidence such as "dark matter" and "dark energy", along with theoretical challenges like inevitable singularities and the enigma of black-hole information loss. In alternative gravity theories, the macroscopic properties of neutron stars (NSs) such as mass, radius,...
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Sriyasriti Acharya (Hamburg University)17/10/2023, 14:05
Relativistic magnetized jets are common features of Active Galactic Nuclei (AGNs), that feature multi-timescale variability and a non-thermal spectrum ranging from radio to gamma-raysThese highly magnetized jets are prone to undergo several Magneto-hydrodynamic (MHD) instabilities during their propagation in space and could trigger jet radiation and particle acceleration. In this work, we...
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Jesper Sollerman (Stockholm University)17/10/2023, 14:25
An overview of how the scientific field of transients such as supernovae has been transformed over the past 15 years, i.e. since the start of the OKC. Focus will be on the large sky surveys iPTF and ZTF, with possible detours to neutrino and gravitational wave counterparts and maybe an outlook for LSST.
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Isabelle John (Stockholm University)17/10/2023, 14:45
High-energy cosmic-ray electrons and positrons cool rapidly as they propagate through the Galaxy, due to synchrotron interactions with magnetic fields and inverse-Compton scattering interactions with photons of the interstellar radiation field. Typically, these energy losses have been modelled as a continuous process. However, inverse-Compton scattering is a stochastic process, characterised...
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Juri Smirnov (University of Liverpool)17/10/2023, 15:40
I will present the effect of dark matter annihilation on the formation of Jovian planets. We show that dark matter heat injections can slow or halt Kelvin-Helmholtz contraction, preventing the accretion of hydrogen and helium onto the solid core. The existence of Jupiter in our solar system can therefore be used to infer constraints on dark matter with relatively strong interaction cross...
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Evan Gale (University of Queensland)17/10/2023, 16:00
In the context of neutrino oscillations, the wave packet representation of propagating neutrinos has emerged as an indispensable tool for deriving the transition probabilities. Conventionally in these analyses, the neutrino wave packet is assumed to be a Gaussian profile. However, it remains unclear to what extent results depend on the assumption of Gaussianity, since (i) the assumption...
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Germain Tobar (Stockholm University)17/10/2023, 16:20
The quantization of gravity is widely believed to result in gravitons -- particles of discrete energy that form gravitational waves. But their detection has so far been considered impossible. Here we show that signatures of single gravitons can be observed in laboratory experiments. We show that stimulated and spontaneous single-graviton processes can become relevant for massive quantum...
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Luca Buoninfante (Nordita)18/10/2023, 11:00
In the context of perturbative quantum field theory (QFT), the addition of quadratic-curvature invariants to the Einstein-Hilbert action makes it possible to achieve strict renormalizability in four dimensions. However, this theory exhibits unusual features due to an additional massive spin-2 ghost particle. In this talk, we are going to argue that despite the presence of the ghost and...
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Benjamin Wallisch (Stockholm University)18/10/2023, 11:20
Standard Model neutrinos decoupled from the primordial plasma about one second after the big bang and have been free-streaming through the cosmos ever since. This leaves a subtle imprint in the baryon acoustic oscillations as observed in the cosmic microwave background (CMB) and large-scale structure (LSS) of the universe. Through careful theoretical considerations of the underlying physics...
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Ivelin Georgiev (Stockholm University)18/10/2023, 11:40
The kinetic Sunyaev-Zel'dovich effect (kSZ) is induced by the scattering of Cosmic Microwave Background (CMB) photons with a medium of free electrons that possess a non-zero bulk velocity. These scatterings alter the small-scale CMB temperature anisotropies, which correlate with the growth of ionising regions during the Epoch of Reionization (EoR). Hence, the kSZ observations can be merged...
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Magdalena Zych (Stockholm University)18/10/2023, 13:40
If relativistic gravitation has a quantum description, it must be meaningful to consider a spacetime metric in a quantum superposition. But how might such a superposition be described, and how could observers detect it? I will present an operational framework for studying โsuperpositions of spacetimesโ via indirect measurements, on particles residing in such spacetime. After presenting the...
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Nikki Arendse (Stockholm University)18/10/2023, 14:30
Last year, the supernova cosmology team at the Oskar Klein Centre made an exciting discovery. With the Zwicky Transient Facility, we observed a supernova which was gravitationally lensed by a massive galaxy, resulting in four images of the same object. The lensed supernova, baptised โSN Zwickyโ, points to a poorly understood population of low-mass lens galaxies. Gravitationally lensed...
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Suhail Dhawan (University of Cambridge)18/10/2023, 14:50
Strongly lensed supernovae are excellent, independent probes to measure the Hubble constant and weigh in on the Hubble tension. In my talk I will discuss the time delay measurements for the first resolved strongly lensed Type Ia supernova, iPTF16geu. I will also review spectroscopic observations of SN Zwicky, the first lensed supernova discovered by Zwicky Transient Facility, including JWST...
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Alessandro Cuoco (University of Turin)18/10/2023, 16:10
Unveiling the origin of the coalescing binaries detected via gravitational waves (GW) is challenging, notably if no multi-wavelength counterpart is detected. One important diagnostic tool is the coalescing binary distribution with respect to the large scale structures (LSS) of the universe, which we quantify via the cross-correlation of galaxy catalogs with GW ones. By using both existing and...
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Dhong Yeon Cheong (Yonsei University & CERN)18/10/2023, 16:30
Primordial black holes (PBHs), produced in the early universe, can be responsible for many phenomena, ranging from dark matter to gravitational waves. In this work, we introduce a scenario where the Standard Model Higgs running induces features in the inflationary potential motivated by Higgs inflation. We identify that a near-inflection point or a tachyonic instability can develop in the...
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Oksana Iarygina (Stockholm University)18/10/2023, 16:50
Primordial non-Gaussianity is a powerful tool to discriminate between models of inflation by probing the dynamics and field content of the very early Universe. In this talk I will show that theories of inflation with multiple, rapidly turning fields can generate large, potentially observable amounts of non-Gaussianity. I will discuss a novel, analytical formula for bispectrum generated from...
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Ricard Aguilera Miret (Hamburg Universitรคt)18/10/2023, 17:10
The detection of a binary neutron star merger in 2017 through both gravitational waves and electromagnetic emission opened a new era of multimessenger astronomy. During the merger, several mechanisms like the Kelvin-Helmholtz instability, the winding up effect and the MRI, can amplify the initial magnetic field in the remnant to be powerful enoguh for launching a jet, with an associated short...
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Dr Sambit Kumar Giri (Stockholm University, Nordita)18/10/2023, 17:30
The epoch of reionisation marks the emergence of the first galaxies that emit light into the intergalactic medium, leading to the ionisation and heating of the Universe. This phase is a forefront area in astrophysics. While our current understanding relies on theoretical models of early galaxy formation within the standard cold dark matter (CDM) cosmology, recent observations, including early...
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Will Handley (University of Cambridge)19/10/2023, 14:10
Cosmological tensions have recieved much attention in recent years, with the community debating the significance (or lack thereof) of the difference in parameter inferences of $H_0$, $S_8$ or $\Omega_K$ between supernovae, CMB, weak lensing and BAO datasets. Bayesian methods for quantifying tensions across high-dimensional datasets have been developed to robustly determine hidden levels of...
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Alexandra Wernersson (University of Amsterdam)19/10/2023, 14:30
Ultralight bosons are a prominent type of axion-like dark matter. These particles may form clouds around black holes through the superradiance process. The remaining system with a boson cloud around a black hole is often called a gravitational atom due to the similarities to the electron cloud of a hydrogen atom. In this talk I will discuss one of the first non-perturbative explorations of...
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Jakob Nordin (Humboldt-Universitรคt zu Berlin)19/10/2023, 14:50
The rapid development of detector technology, including these sensitive to gravitational waves and neutrinos, has brought us to the gate of an era where we will be able to observe transient events as they unfold throughout a large fraction of the Universe. The availability of these data floods requires new systems for data processing and the consistent application of modern statistical methods...
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Justin Alsing (Stockholm University)19/10/2023, 16:30
This is a story about how breakthroughs in machine learning over the past 15 years have borne a paradigm shift in how to do data analysis in Astronomy, enabling impactful science that was previously out-of-reach.
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The dynamics of galaxy evolution leaves its mark on the distribution of galaxy properties in the Universe. Studying the joint distribution of galaxy characteristics (mass,... -
Matthew Lawson (Savantic AB)19/10/2023, 16:50
In this talk we tackle two open and pressing questions for the academic community:
1) Is spacetime emergent and if so can this be tested in a laboratory setting?
2) Is it possible to be an active and engaged researcher after leaving Academia?
We present initial hints that both questions have a positive answer!
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Beatriz Villarroel (Stockholm University)
In recent years, the rapidly expanding field of transient astronomy has resulted in the classification of hundreds of thousands of transients, including variable or flaring stars, Active Galactic Nuclei, Solar System objects, supernovae, GRBs, FRBs, TDEs and a myriad of other transient phenomena. Although nature can undoubtedly generate a vast array of transients, current surveys offer fresh...
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