Abstract: Methods for producing a photomask or layer or stack patterning include applying two resists to a layer, a layer stack, or a mask substrate (collectively “the layer”). Sensitivity of the first resist with respect to the exposure dose is greater than sensitivity of the second. Both resists are subjected to an exposure dose in defined regions of the layer surface, the dose varying locally between first and second doses. The first dose is chosen to expose the first resist but not the second. The second dose is chosen to expose the second resist. After a first development of the second and of the first resist the layer is etched at the uncovered locations for a first time. After complete removal of the second resist and a second development of the first resist, the layer is etched. As a result, it is possible to produce structures of different depths in the layer.

Abstract: A method of determining an exposure dose for writing a pattern using an electron beam writer determines a target dose in the exposure region to obtain a predetermined energy deposition in a specific position of the exposure region, the predetermined energy deposition being larger than a reference energy deposition in the non-exposure region. The target dose is locally increased in a marginal region of the exposure region (the marginal region being adjacent the exposure boundary) to a value that obtains an energy deposition in the marginal region higher than the predetermined energy deposition. Optionally, the target dose can be locally decreased in an intermediate region of the exposure region (the intermediate region being adjacent the marginal region) to a value that obtains an energy deposition in the intermediate region smaller than the predetermined energy deposition. Also provided is an exposure device for carrying out the method.

Abstract: Methods for producing a photomask or layer or stack patterning include applying two resists to a layer, a layer stack, or a mask substrate (collectively “the layer”). Sensitivity of the first resist with respect to the exposure dose is greater than sensitivity of the second. Both resists are subjected to an exposure dose in defined regions of the layer surface, the dose varying locally between first and second doses. The first dose is chosen to expose the first resist but not the second. The second dose is chosen to expose the second resist. After a first development of the second and of the first resist the layer is etched at the uncovered locations for a first time. After complete removal of the second resist and a second development of the first resist, the layer is etched. As a result, it is possible to produce structures of different depths in the layer.

Abstract: A method of determining an exposure dose for writing a pattern using an electron beam writer determines a target dose in the exposure region to obtain a predetermined energy deposition in a specific position of the exposure region, the predetermined energy deposition being larger than a reference energy deposition in the non-exposure region. The target dose is locally increased in a marginal region of the exposure region (the marginal region being adjacent the exposure boundary) to a value that obtains an energy deposition in the marginal region higher than the predetermined energy deposition. Optionally, the target dose can be locally decreased in an intermediate region of the exposure region (the intermediate region being adjacent the marginal region) to a value that obtains an energy deposition in the intermediate region smaller than the predetermined energy deposition. Also provided is an exposure device for carrying out the method.