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DTSTART:20240310T030000
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DTSTAMP:20231204T164309Z
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DTSTART;TZID=America/New_York:20231201T150000
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DESCRIPTION:Commercial-grade silicon-based solar cells have an efficiency i
 n the 20-30% range. The addition of a non-uniform magnetic field can incre
 ase the efficiency of a solar cell by manipulating the movement of the cha
 rge carriers within the silicon. This manipulation can increase the curren
 t produced by the solar cell which helps to increase the power and efficie
 ncy of the solar cell. This theory can be tested by measuring a solar cell
 ’s output current and voltage both with and without the presence of a no
 n-uniform magnetic field. A higher output power means the efficiency of th
 e solar cell is increased.\n\nCo-sponsored by: Wright-Patt Multi-Intellige
 nce Development Consortium (WPMDC)\, The DOD & DOE Communities\n\nSpeaker(
 s): Jason\n\nAgenda: \nCommercial-grade silicon-based solar cells have an 
 efficiency in the 20-30% range. The addition of a non-uniform magnetic fie
 ld can increase the efficiency of a solar cell by manipulating the movemen
 t of the charge carriers within the silicon. This manipulation can increas
 e the current produced by the solar cell which helps to increase the power
  and efficiency of the solar cell. This theory can be tested by measuring 
 a solar cell’s output current and voltage both with and without the pres
 ence of a non-uniform magnetic field. A higher output power means the effi
 ciency of the solar cell is increased.\n\nVirtual: https://events.vtools.i
 eee.org/m/387035
LOCATION:Virtual: https://events.vtools.ieee.org/m/387035
ORGANIZER:a.j.terzuoli@ieee.org
SEQUENCE:7
SUMMARY:The Effects of a Non-Uniform Magnetic Field on the Efficiency of a 
 Solar Cell
URL;VALUE=URI:https://events.vtools.ieee.org/m/387035
X-ALT-DESC:Description: <br /><p>Commercial-grade silicon-based solar cells
  have an efficiency in the 20-30% range. The addition of a non-uniform mag
 netic field can increase the efficiency of a solar cell by manipulating th
 e movement of the charge carriers within the silicon. This manipulation ca
 n increase the current produced by the solar cell which helps to increase 
 the power and efficiency of the solar cell. This theory can be tested by m
 easuring a solar cell&rsquo\;s output current and voltage both with and wi
 thout the presence of a non-uniform magnetic field. A higher output power 
 means the efficiency of the solar cell is increased.&nbsp\;</p><br /><br /
 >Agenda: <br /><p>Commercial-grade silicon-based solar cells have an effic
 iency in the 20-30% range. The addition of a non-uniform magnetic field ca
 n increase the efficiency of a solar cell by manipulating the movement of 
 the charge carriers within the silicon. This manipulation can increase the
  current produced by the solar cell which helps to increase the power and 
 efficiency of the solar cell. This theory can be tested by measuring a sol
 ar cell&rsquo\;s output current and voltage both with and without the pres
 ence of a non-uniform magnetic field. A higher output power means the effi
 ciency of the solar cell is increased.&nbsp\;</p>
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