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Introducing SimphoSOFT ™

Discover SimphoSOFT™, a cutting-edge software for photonics modeling tailored for biotech, lasers, and nanotechnology applications. With its transition-centric and generalized math kernel, the platform simplifies photodynamics by allowing users to easily input materials and laser parameters. The intuitive GUI enables seamless exploration of energy levels, transitions, and population densities through a rich library of materials. SimphoSOFT™ facilitates collaboration and virtual design, making it an indispensable tool for scientists and engineers in photon-based research. Unlock unlimited potential with resource-efficient modeling.

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Introducing SimphoSOFT ™

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Presentation Transcript

  1. Introducing SimphoSOFT™ Photonics Modeling

  2. Applications Photodynamics Biotech Laser Protection Amplifiers Lasers Nanotech Lithography

  3. Experiment • Transition Centric • Generalized Math Kernel • Ease of Use • Input • Materials Parameters • Laser Parameters • Energy Levels & Transitions Laser Energy Levels

  4. for(i=0;i<9;i++) for(j=0;j<9;j++) { if(k[i][j]==0)continue; error=0; for(i1=0;i1<9;i1++) if(i!=i1&&k[i][j]==k[i1][j]) { error=1; i2=i1; j2=j; } for(j1=0;j1<9;j1++) if(j!=j1&&k[i][j]==k[i][j1]) { error=1; i2=i; j2=j1; } for(i1=0;i1<9;i1++) for(j1=0;j1<9;j1++) if((i!=i1||j!=j1)&&i/3==i1/3&&j/3==j1/3&&k[i][j]==k[i1][j1]) { error=1; i2=i1; j2=j1; } if(error) { cout<<“ } } • All GUI • Resource Efficient • No Situation Specific Equations • No Programming

  5. CAD Application Environment • GUI – Building Block • Transitions & Energy Level Focus • Unlimited Potential

  6. Material 2 Material 3 Material 1 Input Pulse Output Pulse Population Densities

  7. Library of Materials Database • Store Sample and Material Parameters • Aids Collaboration

  8. Model Results • Pre-Screen materials • Extrapolate New Conditions • Virtual Design • Extract Parameters • Include Energy Transfer

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