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In order to enable an iCal export link, your account needs to have a key created. This key enables other applications to access data from within Indico even when you are neither using nor logged into the Indico system yourself with the link provided. Once created, you can manage your key at any time by going to 'My Profile' and looking under the tab entitled 'HTTP API'. Further information about HTTP API keys can be found in the Indico documentation.
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In conjunction with a having a key associated with your account, to have the possibility of exporting private event information necessitates the creation of a persistent key. This new key is also associated with your account and whilst it is active the data which can be obtained through using this key can be obtained by anyone in possession of the link provided. Due to this reason, it is extremely important that you keep links generated with this key private and for your use only. If you think someone else may have acquired access to a link using this key in the future, you must immediately remove it from 'My Profile' under the 'HTTP API' tab and generate a new key before regenerating iCalendar links.
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Hadrons in hot and nuclear environment including hypernuclei-2
Place
Location: Mexico City
Date:
27 Jul 11:15 - 13:15
Conveners
Dr. Hernandez, Luis (Departamento de Física, UAMi)
New heavy-ion collision experiments are turning to hard processes. Quarkonia or open heavy flavors are versatile probes, mostly described through models based on pQCD, AdS, or EFTs. LQCD provides nonperturbative input and constraints to such models.
I discuss in-medium bottomonia, the complex static quark-antiquark energy, and the heavy-quark momentum diffusion coefficient, which are key quantiti
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Presented by Dr. Johannes Heinrich WEBER
on
27/7/2021
at
17:05
We have studied the properties of quarkonium states in a non-equilibrium bulk viscous QGP medium. We have computed the dielectric permittivity of the viscous medium within the HTL approximation, which has been used to compute the in-medium heavy quark complex potential. Using the deformed potential, we have computed the wave functions, binding energies, and decay widths of heavy quarkonia. Further
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Presented by Dr. Lata THAKUR
on
27/7/2021
at
17:41
In recent years there has been much progress on the investigation of the QCD phase diagram with lattice QCD. This talk will focus on the developments in the last few years with physical parameters and low chemical potential. Many of these results are important for the understanding of both the QCD transition in the early universe and heavy ion collision experiments which are conducted at heavy io
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Presented by Jana N. GUENTHER
on
27/7/2021
at
16:15
We present results of the bottomonium meson spectrum using the NRQCD approximation at finite temperature using our FASTSUM collaboration's lattice simulations. Various numerical techniques including machine learning, Backus Gilbert and Bayesian approaches are compared to obtain estimates of the masses and widths of these states.
Presented by Prof. Chris ALLTON
on
27/7/2021
at
16:40
We study how to include bound states in a thermal gas in the context of quantum field theory (QFT). We have used a scalar QFT with a $\phi^4$ interaction where the field $\phi$ represents a particle with mass $m$. We observe the creation of bound states when the coupling constant is negative and its modulus is larger than a certain critical value. Then we investigate the contribution of this bound
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Presented by Dr. Subhasis SAMANTA
on
27/7/2021
at
17:23