System and Method for Calibrating Charge-Regulating Module

What is claimed is: 1 . A system for calibrating a charge-regulating module, comprising: means for mounting a Laser and providing motions to move the Laser, wherein the Laser illuminates a beam on a surface of a sample with a beam spot thereon, and regulates charges on the sample surface; a detector for receiving a reflected beam from the beam spot on the sample surface; a controller, coupled to the detector, for receiving signals from the detector, calculating a position of the beam spot, and controlling the beam spot to a pre-determined location; and a transmission, coupled to the controller, and driving the mounting means such that the beam spot is moved to the pre-determined location. 2 . The system of claim 1 , wherein the mounting means is fastened to an objective lens of a charged particle beam tool, and the pre-determined location is irradiated by a charged particle beam of the charged particle beam tool. 3 . The system of claim 2 , wherein the charged particle beam tool is an ebeam inspection tool. 4 . The system of claim 3 , wherein the sample is a wafer or a mask. 5 . The system of claim 4 , wherein the mounting means includes a first motor for driving the Laser with a rotational motion, and a second motor for driving the Laser with a vertical motion. 6 . The system of claim 5 , wherein the transmission is a hollow rod within wires for providing powers and instructions to the first and second motors. 7 . The system of claim 4 , wherein the mounting means is a C-shape mount and the Laser is fastened thereto. 8 . The system of claim 7 , wherein the transmission includes a rotation-to-translation means. 9 . The system of claim 8 , wherein the transmission includes a carved body fastened to the rotation-to-translation means and engaged to the C-shape mount. 10 . The system of claim 9 , wherein a portion of the C-shape mount is engaged with the carved body. 11 . The system of claim 10 , wherein the portion of the C-shape mount is forced to distort in vertical motion and the portion of the C-shape mount is forced to expand with horizontal motion. 12 . An ebeam inspection tool, comprising: an electron tip for providing an electron source; an anode for extracting the electron source as a primary electron beam; a condenser lens for condensing the primary electron beam; a magnetic objective lens for focusing the primary electron beam on a surface of a sample; a charge-regulation module, fastened to the magnetic objective lens, for regulating charges on the sample surface; and a system for calibrating the charge-regulation module, includes: means for mounting the charge-regulation module and providing motions to move the charge-regulation module, wherein the charge-regulation module illuminates a beam on a surface of a sample with a beam spot thereon; a detector for receiving a reflected beam from the beam spot on the sample surface; a controller, coupled to the detector, for receiving signals from the detector, calculating a position of the beam spot, and controlling the beam spot to a pre-determined location; and a transmission, coupled to the controller, and driving the mounting means such that the beam spot is moved to the pre-determined location. 13 . The ebeam inspection tool of claim 12 , wherein the sample is a wafer or a mask. 14 . The ebeam inspection tool of claim 13 , wherein the mounting means includes a first motor for driving the charge-regulation module with a rotational motion, and a second motor for driving the charge-regulation module with a vertical motion. 15 . The ebeam inspection tool of claim 14 , wherein the transmission is a hollow rod within wires for providing powers and instructions to the first and second motors. 16 . The ebeam inspection tool of claim 13 , wherein the mounting means is a C-shape mount and the charge-regulation module is fastened thereto. 17 . The ebeam inspection tool of claim 16 , wherein the transmission includes a rotation-to-translation means. 18 . The ebeam inspection tool of claim 17 , wherein the transmission includes a carved body fastened to the rotation-to-translation means and engaged to the C-shape mount. 19 . The ebeam inspection tool of claim 18 , wherein a portion of the C-shape mount is engaged with the carved body. 20 . The ebeam inspection tool of claim 19 , wherein the portion of the C-shape mount is forced to distort in vertical motion and the portion of the C-shape mount is forced to expand with horizontal motion. 21 . A method for calibrating a charge regulation module under vacuum environment, comprising: providing a beam on a surface of a sample by the charge-regulation module to form a beam spot on the surface, wherein the beam spot regulates charges on the sample surface; detecting a location of the beam spot according to a reflection of the beam from the sample surface; calculating a pre-determined position of a charged particle beam on the surface; and driving the charge-regulation module such that the beam spot moves to the pre-determined position.