Patent Number: 
Section: claims

1. A method for generating a cathodoluminescence map comprising the steps of:generating an intensity modulated charged particle beam;focusing said charged particle beam on a specimen;gating temporally the cathodoluminescence emitted by said specimen to provide time-gated cathodoluminescence;measuring the time-gated cathodoluminescence for different charged particle beam positions on the specimen to generate a cathodoluminescence map;deconvoluting the cathodoluminescence map to improve the resolution of said cathodoluminescence map. 2. A method according to claim 1 wherein the step of deconvoluting the cathodoluminescence map comprises the steps of, discretizing at least part of a volume of the specimen into a region of elementary volumes; and determining the cathodoluminescence emitted by different elementary volumes within the specimen. 3. The method according to claim 1 wherein the step of deconvoluting the cathodoluminescence map further comprises the step of defining a set of parameters which describe an excitation state of the elementary volumes. 4. A method according to claim 1 wherein the step of deconvoluting the cathodoluminescence map further comprises the step of, removing from the cathodoluminescence map the contribution of cathodoluminescence made by elementary volumes of the specimen which are located lateral of a position on the specimen which the electron beam was focused. 5. A method according to claim 1 wherein the step of deconvoluting the measured time-gated cathodoluminescence to improve the resolution to said cathodoluminescence map, comprises the step of deconvoluting the measured time-gated cathodoluminescence to improve the spatial lateral resolution and/or depth resolution of said cathodoluminescence map. 6. A method according to claim 1 further comprising the step of, deconvoluting the measured time-gated cathodoluminescence to provide two or more 2D cathodoluminescence maps each of which represents cathodoluminescence emitted from planes which are at different depths of the specimen. 7. A method according to claim 1 further comprising the step of, varying the energy of said charged particle beam so that particles within the charged particle beam are made to penetrate the specimen to varying depths. 8. A method according to claim 7 further comprising the step of, measuring time-gated cathodoluminescence for different energies of said charged particle beam. 9. A method according to claim 1 further comprising the step of, resolving cathodoluminescence maps spectrally. 10. The method according to claim 1 further comprising the steps of: measuring, after a delay period, one or more other time-gated cathodoluminescence; and comparing, the one or more other measured time-gated cathodoluminescence to the cathodoluminescence map, to determine if the charged particles have moved within the specimen. 11. A cathodoluminescence map generating device comprising: a beam generator for generating an intensity modulated charged particle beam; a focusing element for focusing said charged particle beam on a specimen;means for gating temporally the cathodoluminescence emitted by said specimen;means for measuring the time-gated cathodoluminescence for different electron beam positions on the specimen; andmeans for forming a cathodoluminescence map using the measured time-gated cathodoluminescence; andmeans for deconvoluting the time cathodoluminescence map to improve the resolution of said cathodoluminescence map. 12. A cathodoluminescence map generating device according to claim 11 wherein the means for deconvoluting the cathodoluminescence map to improve the resolution of said cathodoluminescence map, is a means configured to deconvolute the cathodoluminescence map to improve the lateral spatial resolution and/or depth resolution of said cathodoluminescence map. 13. A cathodoluminescence map generating device according to claim 11 further comprising, means for deconvoluting the measured time-gated cathodoluminescence to provide two or more 2D cathodoluminescence maps each of which represent cathodoluminescence emitted from planes which are at different depths of the specimen. 14. A cathodoluminescence map generating device according to claim 11 wherein, the beam generator comprises a photocathode.