摘要:
Fine feature lithography is enhanced by selectively providing exposures to correct for effects such as foreshortening, corner rounding, nested to isolated print bias, feature size dependent bias, and other image biases in semiconductor processing. These results are achieved by increasing the local exposure dose in critical areas of specific images, such as line ends and corners. The general process incorporates techniques which tailor the exposure dose as a function of position to achieve the desired final image shape. The techniques include contrast enhancement layers (CEL), scanning optical beams, and exposures with different masks. In one embodiment the process of forming a pattern comprises the steps of providing a substrate having a photosensitive coating, exposing the center area of the pattern on the photosensitive coating with one mask, and exposing ends of the pattern on the photosensitive coating without exposing the center area with a second mask. The second exposure overlaps the first exposure and may extend beyond the pattern but the second dose is much lower than the first dose.
摘要:
A method uses three dimensional feature metrology for implementation of critical image control and feedback of lithographic focus and x/y tilt. The method is for measuring 3 dimensional profile changes in a photo sensitive film and feeding back compensatory exposure tool focus corrections to maintain a stable lithographic process. The measured focus change from the optimal tool focus offset is monitored directly on the critical product images for both contact hole and line images. Z Focus corrections and x/y tilt corrections are fed back independently of dose to maintain critical dimension (CD) control thereby achieving improved semiconductor wafer printing. Additionally, the method can be used to diagnose problems with the focusing system by measuring the relationship between line edge width and barometric pressure.
摘要:
A method uses three dimensional feature metrology for implementation of critical image control and feedback of lithographic focus and x/y tilt. The method is for measuring 3 dimensional profile changes in a photo sensitive film and feeding back compensatory exposure tool focus corrections to maintain a stable lithographic process. The measured focus change from the optimal tool focus offset is monitored directly on the critical product images for both contact hole and line images. Z Focus corrections and x/y tilt corrections are fed back independently of dose to maintain critical dimension (CD) control. Additionally, the method can be used to diagnose problems with the focusing system by measuring the relationship between line edge width and barometric pressure.
摘要:
A design structure embodied in a machine readable medium used in a design process includes a first dielectric layer disposed on an intermediary layer, a first conductive pad portion and a first interconnect portion disposed on the first dielectric layer, a second dielectric layer disposed on the first dielectric layer, a first capping layer disposed on the first interconnect portion and a portion of the first conductive pad portion, a second capping layer disposed on the first capping layer and a portion of the second dielectric layer, an n-type doped silicon layer disposed on the second capping layer and the first conductive pad portion, an intrinsic silicon layer disposed on the n-type doped silicon layer, and a p-type doped silicon layer disposed on the intrinsic silicon layer.
摘要:
A resized wafer using a negative photoresist ring, methods of manufacture and design structures thereof are disclosed. The method includes forming a ring within a radius of a wafer. The method also includes patterning a photoresist formed on the wafer, by exposing the photoresist to energy. Additionally, the method includes forming troughs in a substrate of the wafer based on the patterning of the photoresist, wherein the ring blocks formation of the troughs underneath the ring. The method also includes filling the troughs with a metal and resizing the wafer at an area of the ring.
摘要:
An apparatus for real-time contamination, environmental, or physical monitoring of a photomask. The apparatus includes a photomask having a patterned region configured to correspond to features of an integrated circuit and a sensor physically coupled with the photomask. The sensor is configured to monitor an attribute related to the photomask. Attributes monitored by the sensor may include chemical contamination, temperature changes, humidity changes, acceleration, shock, vibration, optical flux through the photomask, electrostatic discharge environment of the photomask, particulates, and pressure.
摘要:
Stitched integrated circuit (IC) chip layout design structures are disclosed. In one embodiment, a design structure embodied in a machine readable medium used in a design process includes: an integrated circuit (IC) chip layout exceeding a size of a photolithography tool field, the IC chip layout including: a plurality of stitched regions including at least one redundant stitched region or at least one unique stitched region; and for each stitched region: a boundary identification identifying a boundary of the stitched region at which stitching occurs.
摘要:
Systems for real-time contamination, environmental, or physical monitoring of a photomask. The system includes an electronics package physically mounted to the photomask and a processing device in communication with the electronics package. The electronics package includes a sensor configured to monitor the attribute and generate sensor data. The processing device is configured to analyze the sensor data communicated from the electronics package to the processing device.
摘要:
A plurality of image sensor structures and a plurality of methods for fabricating the plurality of image sensor structures provide for inhibited cracking and delamination of a lens capping layer with respect to a planarizing layer within the plurality of image sensor structures. Particular image sensor structures and related methods include at least one dummy lens layer of different dimensions than active lens layer located over a circuitry portion of a substrate within the particular image sensor structures. Additional particular image sensor structures include at least one of an aperture within the planarizing layer and a sloped endwall of the planarizing layer located over a circuitry portion within the particular image sensor structures.
摘要:
Stitched circuitry region boundary identification for a stitched IC chip layout is presented along with a related IC chip and design structure. One method includes obtaining a circuit design for an integrated circuit (IC) chip layout that exceeds a size of a photolithography tool field, wherein the IC chip layout includes a stitched circuitry region; and modifying the IC chip layout to include a boundary identification identifying a boundary of the stitched circuitry region at which stitching occurs, wherein the boundary identification takes the form of a negative space in the IC chip layout. One IC chip may include a plurality of stitched circuitry regions; and a boundary identification identifying a boundary between a pair of the stitched circuitry regions, wherein the boundary identification takes the form of a negative space in a layer of the IC chip.