Wine and Cheese Spring 2017
This page records the schedule, titles and abstracts of the JHU/STScI CAS Astrophysics Wine & Cheese Series in Spring 2017.
Wine and Cheese sessions with one talk will have a 50 minute talk with 10 minutes for questions. Sessions with two speakers will have two 25 minute talks, each with 5 minutes for questions.
Back to W&C Schedule
January 30th
Michael Fall (STScI)
Formation and Evolution of Star Clusters: A Simple, Unified Picture
This CAS seminar presents a simple, unified picture for the formation and evolution of star clusters. These objects are important in the structure and evolution of galaxies, primarily as the sites of star formation and stellar feedback. The seminar is organized around the mass function of star clusters (i.e., the spectrum of cluster masses) and how it evolves with time (age). Observations show some remarkable similarities in the mass functions of young star clusters in different galaxies, analogous to the similarities in stellar initial mass functions (IMFs). Explaining the near universality of the mass functions of star clusters is one of the goals and successes of the theory presented here. A byproduct of this theory is a unified concept of star clusters of all types (associations, open clusters, globular clusters, etc). In the new picture, clusters are characterized primarily by their masses and ages. The seminar is aimed at a broad audience of theorists and observers.
February 6th
Stephen Rinehart (GSFC)
TESS
Abstract
Andrew Ptak (GSFC)
Star-X
Abstract
February 13th
David Nataf (JHU)
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Abstract
Yi-kuan Chiang (JHU)
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Abstract
February 20th
Lucas Parker
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Abstract
Graeme Addison
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Abstract
March 6th
TBD
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Abstract
Jeremy Schnittman (GSFC)
Radiation Transport in Dynamic Spacetimes
We present early results from a new radiation transport
calculation of gas accretion onto merging binary black holes. We use the
Monte Carlo radiation transport code Pandurata, now generalized for
application to dynamic spacetimes. The time variability of the metric
requires careful numerical techniques for solving the geodesic
equation, particularly with tabulated spacetime data from numerical
relativity codes.
Using a new series of general relativistic magneto-hydrodynamical
simulations of magnetized flow onto binary black holes, we
investigate the possibility for detecting and identifying unique
electromagnetic counterparts to gravitational wave events.
March 27th
TBD
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Abstract
April 3rd
Massimo Ricotti (UMd)
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Abstract
April 10th
Jay Felix Lockman (NRAO)
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April 17th
TBD
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May Day
Philip Hopkins (Caltech)
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Abstract