摘要:
A direct-write (DW) exposure system is provided which includes a stage for holding a substrate and configured to scan the substrate along an axis during exposure, a data processing module for processing pattering data and generating instructions associated with the patterning data, and an exposure module that includes a plurality of beams that are focused onto the substrate such that the beams cover a width that is larger than a width of a field size and a beam controller that controls the plurality of beams in accordance with the instructions as the substrate is scanned along the axis. The widths are in a direction different from the axis.
摘要:
A direct-write (DW) exposure system is provided which includes a stage for holding a substrate and configured to scan the substrate along an axis during exposure, a data processing module for processing pattering data and generating instructions associated with the patterning data, and an exposure module that includes a plurality of beams that are focused onto the substrate such that the beams cover a width that is larger than a width of a field size and a beam controller that controls the plurality of beams in accordance with the instructions as the substrate is scanned along the axis. The widths are in a direction different from the axis.
摘要:
A level adjustment system. The level adjustment system includes an adjustable pin chuck, an evacuation device, a level detection device and a length control device. The adjustable pin chuck includes a base and a variable pin to support a substrate. The base includes a recess and an evacuation channel connected thereto. The variable pin is disposed in the recess. The evacuation device is connected to the evacuation channel to evacuate the recess, such that the substrate is attached to the base and variable pin. The level detection device is disposed on the adjustable pin chuck to detect the horizontality of a target surface of the substrate. The length control device is electrically connected to the level detection device and variable pin. The length control device changes the length of the variable pin to adjust level of the target surface of the substrate according to the detected horizontality.
摘要:
A level adjustment system. The level adjustment system includes an adjustable pin chuck, an evacuation device, a level detection device and a length control device. The adjustable pin chuck includes a base and a variable pin to support a substrate. The base includes a recess and an evacuation channel connected thereto. The variable pin is disposed in the recess. The evacuation device is connected to the evacuation channel to evacuate the recess, such that the substrate is attached to the base and variable pin. The level detection device is disposed on the adjustable pin chuck to detect the horizontality of a target surface of the substrate. The length control device is electrically connected to the level detection device and variable pin. The length control device changes the length of the variable pin to adjust level of the target surface of the substrate according to the detected horizontality.
摘要:
The present disclosure provides a maskless lithography apparatus. The apparatus includes a plurality of writing chambers, each including: a wafer stage operable to secure a wafer to be written and a multi-beam module operable to provide multiple radiation beams for writing the wafer; an interface operable to transfer wafers between each of the writing chambers and a track unit for processing an imaging layer to the wafers; and a data path operable to provide a set of circuit pattern data to each of the multiple radiation beams in each of the writing chambers.
摘要:
The present disclosure provides a maskless lithography apparatus. The apparatus includes a plurality of writing chambers, each including: a wafer stage operable to secure a wafer to be written and a multi-beam module operable to provide multiple radiation beams for writing the wafer; an interface operable to transfer wafers between each of the writing chambers and a track unit for processing an imaging layer to the wafers; and a data path operable to provide a set of circuit pattern data to each of the multiple radiation beams in each of the writing chambers.
摘要:
The present disclosure provides a method of increasing the wafer throughput by an electron beam lithography system. The method includes scanning a wafer using the maximum scan slit width (MSSW) of the electron beam writer. By constraining the integrated circuit (IC) field size to allow the MSSW to cover a complete field, the MSSW is applied to decrease the scan lanes of a wafer and thereby increase the throughput. When scanning the wafer with the MSSW, the next scan lane data can be rearranged and loaded into a memory buffer. Thus, once one scan lane is finished, the next scan lane data in the memory buffer is read for scanning.
摘要:
The present disclosure provides a method of increasing the wafer throughput by an electron beam lithography system. The method includes scanning a wafer using the maximum scan slit width (MSSW) of the electron beam writer. By constraining the integrated circuit (IC) field size to allow the MSSW to cover a complete field, the MSSW is applied to decrease the scan lanes of a wafer and thereby increase the throughput. When scanning the wafer with the MSSW, the next scan lane data can be rearranged and loaded into a memory buffer. Thus, once one scan lane is finished, the next scan lane data in the memory buffer is read for scanning.
摘要:
Disclosed is a photomask comprising a transparent substrate, an absorption layer proximate to the transparent substrate, and a pellicle mounted proximate to the transparent substrate. The absorption layer has at least one opening formed therein for receiving a wavelength-reducing material (WRM). The wavelength-reducing material and the absorption layer form a generally planar surface.
摘要:
A method for writing a design to a material using an electron beam includes assigning a first dosage to a first polygonal shape. The first polygonal shape occupies a first virtual layer and includes a first set of pixels. The method also includes simulating a first write operation using the first polygonal shape to create the design, discerning an error in the simulated first write operation, and assigning a second dosage to a second polygonal shape to reduce the error. The second polygonal shape occupies a second virtual layer. The method further includes creating a data structure that includes the first and second polygonal shapes and saving the data structure to a non-transitory computer-readable medium.