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DTSTAMP:20220623T234827Z
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DTSTART;TZID=America/New_York:20220623T183000
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DESCRIPTION:Advances in integrated-circuit design and technology offer capa
 bilities for space systems that could not be imagined when humans first be
 gan exploring outer space. However\, the use of advanced technologies in s
 pace requires careful assessment of the space environment and mitigation o
 f space environment effects. The space radiation environment and its solar
  induced changes interact with spacecraft and instrument components and ca
 use observable effects that can be temporary or permanent. Often spacecraf
 t anomalies are caused by these radiation-induced effects\, causing loss o
 f data\, degradation of capability\, service outages\, and\, in extreme ca
 ses\, the loss of spacecraft. The effects are usually classified into thre
 e categories: total ionizing dose damage that accumulates over a period of
  time\, accumulated damage from atoms being displaced from the material la
 ttice structure\, and single event effects that occur as a result of charg
 e being generated along the path of a primary or secondary ionizing partic
 le\, collected on circuit nodes\, and disrupting (at least temporarily) no
 rmal circuit response.\n\nSpeaker(s): Dr. Janet Barth\, \n\nAgenda: \n6:30
 -6:35 : Introduction\n\n6:35-7:25 : Technical Talk\n\n7:35- : Q&A\n\nVirtu
 al: https://events.vtools.ieee.org/m/314398
LOCATION:Virtual: https://events.vtools.ieee.org/m/314398
ORGANIZER:nfhaddad@aol.com
SEQUENCE:5
SUMMARY:Space Environments and Effects
URL;VALUE=URI:https://events.vtools.ieee.org/m/314398
X-ALT-DESC:Description: <br /><p>Advances in integrated-circuit design and 
 technology offer capabilities for space systems that could not be imagined
  when humans first began exploring outer space. However\, the use of advan
 ced technologies in space requires careful assessment of the space environ
 ment and mitigation of space environment effects. The space radiation envi
 ronment and its solar induced changes interact with spacecraft and instrum
 ent components and cause observable effects that can be temporary or perma
 nent. Often spacecraft anomalies are caused by these radiation-induced eff
 ects\, causing loss of data\, degradation of capability\, service outages\
 , and\, in extreme cases\, the loss of spacecraft. The effects are usually
  classified into three categories: total ionizing dose damage that accumul
 ates over a period of time\, accumulated damage from atoms being displaced
  from the material lattice structure\, and single event effects that occur
  as a result of charge being generated along the path of a primary or seco
 ndary ionizing particle\, collected on circuit nodes\, and disrupting (at 
 least temporarily) normal circuit response.</p><br /><br />Agenda: <br /><
 p>6:30-6:35 : Introduction</p>\n<p>6:35-7:25 : Technical Talk</p>\n<p>7:35
 -&nbsp\; &nbsp\; &nbsp\; &nbsp\;: Q&amp\;A</p>
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