2. Introducing SimphoSOFT™ Photonics Modeling

3. Applications LithographyNanotechLasersAmplifiers Biotech Photodynamics Laser Protection

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

5. 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

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

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

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

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