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* Nanotechnical Atomic Imaging Software Development * * Chip Design Software Builds*................................................................................ *The Solution to the Schrodinger Wave Equation*
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  Electron Topology             Symmegraphics Gallery    $25.00    P-302.4
                             
                                        
                                                                        
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        Nanomaterial modeling software builds, or other            
  applications of relative quantum physics, should have
  a concise definition of the central features of the
  picotechnical atomic model which focuses on electron
  topology.  Only exact interactive electron topological
  wavefunction mathematics will perform all of the            
  nanotechnical modeling science or engineering office
  tasks needed to fulfill the safety and diligence criteria of
  modern quality assurance.  That means the primary factor
  in many nanostructure analysis projects will be the electron
  sets involved in bonding, electron-positron interaction,
  picotechnical surface topology, reactions, electromagnetic
  wave absorption picostructure, and photon emission  
  femtostructure.
 
       The CRQT unified electron model is an exact relative quantum topological equation with many
  unique, picoyoctometric (pym) features.  It's pulsations and quantized shifts are not only modeled, but
  have a full spectrum of force field interactions defined in terms of TCD and unified subatomic particle 
  modeling software build infotools developed by application of the grand unified theory to pymtechnical
  electron structure.  Electron imaging software development begins with the relativistic P-302.4 model, 
  as constructed and explained in chapter four of The Crystalon Door.  A field of virtual nanoelectronics
  opens wide when CRQT techniques are applied to semiconductor integrated circuit modeling, with 
  3D animated video electron imaging capable of analyzing any electron configuration.
 
       Now the excitation of collective oscillations of conduction electrons may be studied by MAVCAM
  to analyze their femtostructure for modeling how they capture, guide, and focus electromagnetic
  energy.  Each charge particle surrounding an electrocore is constructed as a picoyoctometric negative
  charge model, and the pymelectronic force field topological dynamics of those charge fields are
  clearly defined in relative quantum physics functions to understand each detail.  CRQT nanoelectronics
  does not end there, though, but continues with pymtechnical heat field energy and force modeling.  
  Thermal relativity is integrated into all CRQT electron models, with workon quantized interactions that
  are quantized for symmetry, space, and gravity as well as picoyoctotechnical
  thermic tint details. 
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