Title :
CAVE visualization of the IceCube neutrino detector
Author :
Tredinnick, Ross ; Vanderheiden, James ; Suplinski, Clayton ; Madsen, J.
Author_Institution :
Univ. of Wisconsin-Madison, Madison, WI, USA
fDate :
March 29 2014-April 2 2014
Abstract :
Neutrinos are nearly massless, weakly interacting particles that come from a variety of sources including the sun, radioactive decay and cosmic rays. Neutrinos are unique cosmic messengers that provide new ways to explore the Universe as well as opportunities to better understand the basic building blocks of matter. IceCube, the largest operating neutrino detector in the world, is located in the ice sheet at the South Pole. This paper describes an interactive VR application for visualization of the IceCube´s neutrino data within a C6 CAVE system. The dynamic display of data in a true scale recreation of the light sensor system allows events to be viewed from arbitrary locations both forward and backward in time. Initial feedback from user experiences within the system have been positive, showing promise for both further insight into analyzing data as well as opportunities for physics and neutrino education.
Keywords :
cosmic ray neutrinos; data visualisation; physics computing; solar cosmic ray particles; virtual reality; C6 CAVE system; CAVE visualization; IceCube neutrino data visualization; IceCube neutrino detector; South Pole; Sun; Universe; arbitrary locations; cosmic messengers; cosmic rays; data analysis; dynamic data display; ice sheet; interactive VR application; light sensor system; massless-weakly interacting particles; radioactive decay; true-scale recreation; user experience feedback; Data visualization; Detectors; Ice; Navigation; Neutrino sources; Solid modeling; Three-dimensional displays; H.5.1 [Information Presentation]: Multimedia Information Systems — Artificial, augmented and virtual realities;
Conference_Titel :
Virtual Reality (VR), 2014 iEEE
Conference_Location :
Minneapolis, MN
DOI :
10.1109/VR.2014.6802079
