PCGrate Screenshots Fig.29. The answer how to build the multi-layer lamellar grating. Fig.30. A multi-boundary grating model with plane gaps between two adjacent corrugated regions can be calculated by both Penetrating and Separating solvers. Fig.31. A multi-boundary grating model can be calculated by the Penetrating solver only. Fig.32. An example of resulting graph is for 'Ruled Spherical Al/Al2O3 Grating for the TM Polarization in the VUV' (v.6.1). Fig.33. An example of resulting graph is for 'Ruled Spherical Al/Al2O3 Grating for the TM Polarized Spherical Wave-front Radiation in the VUV'(v.6.3). Fig.34. An example of resulting graph is for 'Blazed Transmission Grating for the NP Polarization in the Visible' (v.6.1 & v.6.2). Fig.35. An example of resulting graph is for 'Nonconformal Au/Dielectric Grating for the NP Polarization in the Visible–NIR' (v.6.1 & v.6.2). Fig.36. An example of resulting table is for 'Sawtooth Grating in Conical Mount for the Elliptically Polarized EUV' (v.6.3). Fig.37. An example of resulting graph is for 'Real Groove Profile Echelle Grating for the TE Polarization in the Visible' (v.6.1 & v.6.3). Fig.38. An example of resulting graph for 'Binary Phase High-Conductive Grating for the NP Polarization in the NIR' (v.6.1). Fig.39. An example of resulting graph for 'Binary Phase High-Conductive Grating for the NP Polarization in the NIR' (v.6.3). Fig.40. An example of resulting data in XML format for 'Sawtooth High-Conductive Grating for the NP Polarization in the NUV–NIR' (v.6.1). Fig.41. An example of resulting graph for 'Transmission Grating Prism (GRISM) for the NP Polarization in the NUV' (v.6.3). Fig.42. An example of resulting graph for 'Randomly Rough Ruled VLS Grating for the TM Polarization in the Visible–NIR' (v.6.3). Fig.43. An example of resulting graph A for 'Circular Rod Transmission Grating for the NP Polarization in the NIR' (v.6.3). Fig.44. An example of resulting graph B for 'Circular Rod Transmission Grating for the NP Polarization in the NIR' (v.6.3). Fig.45. An example of resulting data in XML format for 'Sawtooth High-Conductive Grating for the NP Polarization in the NUV–NIR' (v.6.3). Fig.29. The answer from PCGrates FAQ Fig.30. A Grating Model with Separated Boundaries Fig.31. A Grating Model with Penetrating Boundaries Fig.32. A Sample Graph for Grating Example 1 (v.6.1) Fig.33. A Sample Graph for Grating Example 1 (v.6.3) Fig.34. A Sample Graph for Grating Example 2 (v.6.1 & v.6.2) Fig.35. A Sample Graph for Grating Example 3 (v.6.1 & v.6.2) Fig.36. A Sample Table for Grating Example 4 (v.6.3) Fig.37. A Sample Graph for Grating Example 5 (v.6.1 & v.6.3) Fig.38. A Sample Graph for New Grating Example 6 (v.6.1) Fig.39. A Sample Graph for Grating Example 6 New (v.6.3) Fig.40. A Sample XML Output for Grating Example 0 (v.6.1) Fig.41. A Sample Graph for Grating Example 7 (v.6.3) Fig.42. A Sample Graph for New Grating Example 8 (v.6.3) Fig.43. A Sample Graph A for Grating Example 9 (v.6.3) Fig.44. A Sample Graph B for Grating Example 9 (v.6.3) Fig.45. A Sample XML Output for Grating Example 0 (v.6.3) Copyright © 1996-2010 International Intellectual Group, Inc. All rights reserved.