Events Calendar View

• Departmental Colloquium Mar 7, 2013

  Unraveling the complexity of simple models: From knotted proteins to snowy landscapes

  

  Guest: Thomas Wuest, WSL Switzerland
  Thursday, March 7, 2013 4:00 pm - 5:00 pm
  Location: Physics Auditorium (202)

  iCal

  With the continuous increase in computer power, computational scientists are able to devise models of the physical world with ever increasing complexity and detail. Despite the accuracy of such sophisticated models though, the "forest" of underlying basic principles often gets lost within the "trees" of details of the model. In this talk I will illustrate the benefits of the reverse direction: With examples ranging from materials science, protein folding and snow physics, I will show that intricate scientific questions can often better be understood by simplified models where unimportant details are systematically peeled off (reductionism). In particular, the investigated topics are: (i) Growth-induced polarity formation in molecular crystals; (ii) statistical physics questions in proteins and polymers; (iii) snow depth distribution and smoothing in complex terrain. Besides giving insight into fundamental behavior of complex physical phenomena, I will demonstrate that simplified models surprisingly often pose also a considerable computational challenge asking for sophisticated algorithms. 

• NanoSEC Seminar Mar 8, 2013

  How to start a small business

  

  Guest: Dr. Stefan Schulze
  Friday, March 8, 2013 4:00 pm - 5:00 pm
  Location: Riverbend Research South Laboratory Auditorium

  iCal
• Departmental Colloquium Mar 28, 2013

  The Outcome of the LHC Search for the Higgs Boson

  

  Guest: Tom LeCompte, Argonne National Lab
  Thursday, March 28, 2013 4:00 pm - 5:00 pm
  Location: Physics Auditorium (202)

  iCal

  The idea that the universe might be filled with scalar fields to explain why fundamental particles are not all massless was born, and incorporated into the highly successful Standard Model of fundamental particles and interactions, nearly 50 years ago. Until this summer there remained one unconfirmed prediction of this model, the existence of a massive particle with the same quantum numbers as the vacuum: the Higgs boson. The confirmation or falsification of this prediction is one of the highlights of the physics program of the Large Hadron Collider (LHC) at CERN. I discuss the recent experimental evidence for the existence of the Higgs Boson, concentrating on results from the ATLAS experiment.

• Departmental Colloquium Apr 4, 2013

  The Fascinating Structure of Hadrons: What have we learned about excited protons?

  

  Guest: Volker Crede, Florida State University, Physics Department
  Thursday, April 4, 2013 4:00 pm - 5:00 pm
  Location: Physics Auditorium (202)

  iCal

  Hadrons are composed of quarks and gluons held together by the strong force. They can be categorized into two families: baryons, three-quark states such as the proton and the neutron, as well as mesons, quark-antiquark states such as the pion. Other types of hadrons may exist and much effort is invested in state-of-the art experiments around the world to search for new forms of matter, but no current evidence conclusively suggests the existence of unconventional or exotic hadrons. The composite nature of these particles manifests itself in the existence of a rich spectrum of excited states. The properties of these resonances can be identified by systematic investigations using electromagnetic and strong probes, primarily with beams of electrons, photons, and pions. In the spectroscopy of baryon resonances, after decades of research, the fundamental degrees of freedom underlying the baryon excitation spectrum are still poorly understood. The search for hitherto undiscovered bu
  t predicted resonances continues at many laboratories worldwide. Recent results from photo- and electro-production experiments provide intriguing indications for new states and shed light on the structure of some of the known nucleon excitations. The continuing study of available data sets with consideration of new observables and improved analysis tools have also called into question some of the earlier findings in the field. I will present the hadron spectroscopy program at Jefferson Laboratory and will discuss recent progress toward understanding baryon resonances. 

• Departmental Colloquium Apr 11, 2013

  Hot Gas in the Galactic Halo

  

  Guest: David Henley, UGA Physics and Astronomy
  Thursday, April 11, 2013 4:00 pm - 5:00 pm
  Location: Physics Auditorium (202)

  iCal

  The Galactic halo, above and below the Galactic disk, is filled with gas
  at ~1-3 million K. This gas is a major contributor to the diffuse soft
  X-ray background (SXRB) in directions looking out of the Galactic disk. 
  Despite many years of study, the origin of the hot halo gas remains
  uncertain. X-ray spectroscopy of the SXRB emission enables us to
  determine the physical conditions in the hot gas, providing clues to its
  origin and evolution.
  
  We have recently completed a survey of the SXRB using data from the  
  orbiting XMM-Newton X-ray observatory. I will describe how we use the 
  data from this survey to measure the halo's X-ray emission, and how we  
  are using these results to test physical models for the origin of the
  hot gas.

• CSP Lunch Seminar Apr 16, 2013

  Ab initio complex basis function calculations of molecular resonances.

  

  Guest: Prof. Robert Buenker, Bergische Universitat Wuppertal and NCSU)
  Tuesday, April 16, 2013 12:30 pm - 1:30 pm
  Location: Rm. 302

  iCal

Page 42 of 121, showing 6 records out of 723 total, starting on record 247, ending on 252