| ULTRATECH, INC. Patent applications |
| Patent application number | Title | Published |
|---|
| 20120111838 | Thermal Processing of Substrates with Pre- and Post-Spike Temperature Contro - Provided are apparatuses and method for the thermal processing of a substrate surface, e.g., controlled laser thermal annealing (LTA) of substrates. The invention typically involves irradiating the substrate surface with first and second images to process regions of the substrate surface at a substantially uniform peak processing temperature along a scan path. A first image may serve to effect spike annealing of the substrates while another may be used to provide auxiliary heat treatment to the substrates before and/or after the spike annealing. Control over the temperature profile of the prespike and/or postspike may also reduce stresses and strains generated in the wafers. Also provided are microelectronic devices formed using the inventive apparatuses and methods. | 05-10-2012 |
| 20120071007 | SUBSTRATE PROCESSING WITH REDUCED WARPAGE AND/OR CONTROLLED STRAIN - Provided are systems and methods for processing the surface of substrates that scan a laser beam at one or more selected orientation angles. The orientation angle or angles may be selected to reduce substrate warpage. When the substrates are semiconductor wafers having microelectronic devices, the orientation angles may be selected to produce controlled strain and to improve electronic performance of the devices. | 03-22-2012 |
| 20110298093 | Thermal Processing of Substrates with Pre- and Post-Spike Temperature Control - Provided are apparatuses and method for the thermal processing of a substrate surface, e.g., controlled laser thermal annealing (LTA) of substrates. The invention typically involves irradiating the substrate surface with first and second images to process regions of the substrate surface at a substantially uniform peak processing temperature along a scan path. A first image may serve to effect spike annealing of the substrates while another may be used to provide auxiliary heat treatment to the substrates before and/or after the spike annealing. Control over the temperature profile of the prespike and/or postspike may also reduce stresses and strains generated in the wafers. Also provided are microelectronic devices formed using the inventive apparatuses and methods. | 12-08-2011 |
| 20110249071 | Apparatuses and methods for irradiating a substrate to avoid substrate edge damage - Apparatuses and methods are provided for processing a substrate having an upper surface that includes a central region, a peripheral region, and an edge adjacent to the peripheral region. An image having an intensity sufficient to effect thermal processing of the substrate is scanned across the upper surface of the substrate. The image scanning geometry allows processing the central region of the substrate at a substantially uniform temperature without damaging the outer edge. In some instances, the image may be formed from a beam traveling over at least a portion of the central region so that no portion thereof directly illuminates any portion of the edge when the image is scanned across the periphery region. The substrate may be rotated 180° or the beam direction may be switched after part of the scanning operation has been completed. | 10-13-2011 |
| 20110089523 | SYSTEMS AND PROCESSES FOR FORMING THREE-DIMENSIONAL CIRCUITS - Provided are systems and processes for forming a three-dimensional circuit on a substrate. A radiation source produces a beam that is directed at a substrate having an isolating layer interposed between circuit layers. The circuit layers communicate with reach other via a seed region exhibiting a crystalline surface. At least one circuit layer has an initial microstructure that exhibits electronic properties unsuitable for forming circuit features therein. After being controllably heat treated, the initial microstructure of the circuit layer having unsuitable properties is transformed into one that exhibits electronic properties suitable for forming circuit feature therein. Also provided are three-dimensional circuit structures optionally formed by the inventive systems and/or processes. | 04-21-2011 |
| 20110058731 | Dual-sided substrate measurement apparatus and methods - An apparatus for measuring the relative positions of frontside and backside alignment marks located on opposite sides of a substrate is disclosed. The apparatus includes upper and lower optical systems that allow for simultaneous imaging of frontside and backside alignment marks. The frontside and backside alignment mark images are processed to determine the relative position of the marks, as a measurement of the alignment and/or overlay performance of the tool that formed the marks on the substrate. | 03-10-2011 |
| 20110028003 | Substrate processing with reduced warpage and/or controlled strain - Provided are systems and methods for processing the surface of substrates that scan a laser beam at one or more selected orientation angles. The orientation angle or angles may be selected to reduce substrate warpage. When the substrates are semiconductor wafers having microelectronic devices; the orientation angles may be selected to produce controlled strain and to improve electronic performance of the devices. | 02-03-2011 |
| 20090095724 | Laser thermal processing with laser diode radiation - A method and apparatus for performing laser thermal processing (LTP) using one or more two-dimensional arrays of laser diodes and corresponding one or more LTP optical systems to form corresponding one or more line images. The line images are scanned across a substrate, e.g., by moving the substrate relative to the one or more line images. The apparatus also includes one or more recycling optical systems arranged to re-image reflected annealing radiation back onto the substrate. The use of one or more recycling optical systems greatly improves the heating efficiency and uniformity during LTP. | 04-16-2009 |
