Thermal history of the Universe at intermediate redshift: progress with 21cm absorption measurements
from
Tuesday, 26 June 2018 (09:00)
to
Wednesday, 27 June 2018 (18:00)
Monday, 25 June 2018
Tuesday, 26 June 2018
09:30
Coffee
Coffee
09:30 - 10:00
Room: 4/2-011 - TH common room
10:00
An Absorption Feature in the Sky-Averaged Radio Spectrum
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Raul Monsalve
An Absorption Feature in the Sky-Averaged Radio Spectrum
Raul Monsalve
10:00 - 10:45
Room: 4/3-006 - TH Conference Room
The EDGES experiment has detected with high S/N an absorption feature in the radio spectrum centered at 78 MHz. This feature is broadly consistent with expectations for the global 21-cm absorption signal from cosmic dawn. However, important aspects of the signal differ from physical predictions. In particular, 1) its absorption amplitude is larger than expected, 2) its profile has surprisingly sharp features, and 3) the center frequency is in tension with predictions from high-z UV galaxy luminosity functions. Understanding the key experimental aspects is crucial when interpreting this challenging measurement. In my talk I will describe the EDGES detection of this absorption feature using our two Low-Band instruments. I will discuss the lab and field calibrations, the verifications tests, the data analysis, and the parameter estimation. I will also summarize recent efforts to constrain traditional 21-cm models using EDGES High-Band data.
11:00
Dark matter revealed by the first stars?
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Rennan Barkana
Dark matter revealed by the first stars?
Rennan Barkana
11:00 - 11:45
Room: 4/3-006 - TH Conference Room
The EDGES global 21-cm experiment has detected stronger absorption than expected at cosmic dawn. This absorption can be explained by invoking excess cooling of the cosmic gas induced by an interaction with dark matter. This would have far reaching consequences, including an upper limit on the mass of dark matter particles that conflicts with the expectations for WIMPs. Specific particle physics models are highly constrained, but further observations will decide. In particular, we predict that 21-cm fluctuations at cosmic dawn are likely to be much larger than previously expected, and may exhibit a specific signature of the effect of dark matter.
12:00
Lunch
Lunch
12:00 - 15:00
Room: R1
15:00
Coffee
Coffee
15:00 - 15:30
Room: 4/2-011 - TH common room
15:30
Bounds on Dark Matter annihilations from 21 cm data
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Guido D'Amico
Bounds on Dark Matter annihilations from 21 cm data
Guido D'Amico
15:30 - 16:00
Room: 4/3-006 - TH Conference Room
The observation of an absorption feature in the 21 cm spectrum at redshift z ≈ 17 implies bounds on Dark Matter annihilations for a broad range of masses, given that significant heating of the intergalactic medium would have erased such feature. The resulting bounds on the DM annihilation cross sections are comparable to the strongest ones from all other observables.
16:15
Speculations on the EDGES 21cm anomaly
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Andi Hektor
Speculations on the EDGES 21cm anomaly
Andi Hektor
16:15 - 16:45
Room: 4/3-006 - TH Conference Room
Possible attempts to resolve the EDGES anomaly rely on cooling cosmic hydrogen gas via interactions between dark and visible sector or modifying the soft photon background beyond CMB. The first solution is in tension with cosmological dark matter probes once simple dark sector models are considered. The second solution can be realised as soft photon emission from dark sector. However, the proposed mechanisms to produce soft photons need rather complex physics, e.g. axion miniclusters. The talk is based on our recent paper 1803.03245.
17:00
Constraints on energy injection from 21-cm measurements: primordial black holes, axion-like particles and excited dark matter
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Gert Hutsi
Constraints on energy injection from 21-cm measurements: primordial black holes, axion-like particles and excited dark matter
Gert Hutsi
17:00 - 17:30
Room: 4/3-006 - TH Conference Room
I will review our recent papers 1803.09697 and 1805.09319
18:00
18:00 - 20:00
Room: R1
Wednesday, 27 June 2018
09:30
Coffee
Coffee
09:30 - 10:00
Room: 4/2-011 - TH common room
10:00
21 cm Cosmology: The status of the current redshifted 21 cm experiments
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Saleem Zaroubi
21 cm Cosmology: The status of the current redshifted 21 cm experiments
Saleem Zaroubi
10:00 - 10:45
Room: 4/3-006 - TH Conference Room
In the last decade a large effort has been dedicated to detect one of the last phase transitions in the Universe called the Epoch of Reionization and its preceding epoch know as the Cosmic Dawn, specially with redshifted 21 cm probes. I will review the current status of the various constraints that we currently have on reionization. I will also show the current results from the few redshifted 21 cm operating telescopes, a special attention will be paid to the recent results obtained with EDGES and the LOFAR telescope. A discussion about the future of this effort will conclude my talk.
11:00
Probing non-cold dark matter models with the global 21-cm signal
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Aurel Schneider
Probing non-cold dark matter models with the global 21-cm signal
Aurel Schneider
11:00 - 11:45
Room: 4/3-006 - TH Conference Room
The global 21-cm absorption signal induced by the first stars provides unique insights into structure formation at very high redshifts. I will show how the timing of such a signal can be used to obtain unprecedented constraints on the nature of dark matter.
12:00
Lunch
Lunch
12:00 - 15:00
Room: R1
15:00
Coffee
Coffee
15:00 - 15:30
Room: 4/2-011 - TH common room
15:30
Stronger 21cm absorption from charge sequestration
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Adam Falkowski
Stronger 21cm absorption from charge sequestration
Adam Falkowski
15:30 - 16:00
Room: 4/3-006 - TH Conference Room
The unexpectedly strong 21cm absorption signal detected by the EDGES experiment suggests that the baryonic gas at the end of the dark ages was colder than predicted in the standard scenario. We discuss a mechanism to lower the baryon temperature after recombination. We introduce a stable, negatively-charged particle with a significant cosmological abundance, such that the universe remains charge-neutral but the electron and proton numbers are no longer equal. The deficit of electrons after recombination results in an earlier decoupling of the baryon and CMB temperatures, and thus in a colder gas at the cosmic dawn.
16:15
The 21-cm signal and the high redshift IGM
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Tejaswi Venumadhav
The 21-cm signal and the high redshift IGM
Tejaswi Venumadhav
16:15 - 16:45
Room: 4/3-006 - TH Conference Room
The recent results of the EDGES experiment motivate us to take a closer look at the standard calculation of the 21cm signal. I will give a short introduction to the physics of the 21cm line, and how its brightness temperature depends on the physical conditions in the high redshift IGM, namely the local gas temperature and the flux of Lyman-alpha photons. I will then describe recent work that shows how the CMB heats the gas in the presence of the same Lyman-alpha photons that are needed to produce the signal. Time permitting, I will also touch on the implications of the shape of the EDGES signal for the fluctuations in the 21cm background from the same cosmological period.
17:00
21 cm physics as a probe of (a case for?) dark radiation.
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Maxim Pospelov
21 cm physics as a probe of (a case for?) dark radiation.
Maxim Pospelov
17:00 - 17:30
Room: 4/3-006 - TH Conference Room
Numerous quanta of soft dark radiation ( e.g. more abundant than CMB photons) could be created in the early Universe by means of various non-thermal processes. The dark radiation can be resonantly converted to the "normal" photons, creating over-population of Rayleigh-Jeans photons, increasing the contrast of the 21 cm absorption feature. We construct specific classes of models to that effect, where the dark radiation in the form of the dark photons is sourced by the decay of sub-eV dark matter particles. We show that such models are perfectly consistent with all astrophysical, cosmological and terrestrial data, and 21 cm physics provides the leading constraint on it. In a more speculative vein, the strength of the EDGES signal can also be explained suing such a setup.