US2020381258A1PendingUtilityA1

Biased pulse cmp groove pattern

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Assignee: ROHM & HAAS ELECT MATERIALS CMP HOLDINGS INCPriority: Jun 14, 2017Filed: Aug 21, 2020Published: Dec 3, 2020
Est. expiryJun 14, 2037(~10.9 yrs left)· nominal 20-yr term from priority
H10P 95/062H10P 90/15H10P 72/0402H10P 52/403H10P 52/00B24B 37/26C09G 1/02C09K 3/1409B24B 37/00H01L 21/3212H01L 21/67017H01L 21/3043H01L 21/31053H01L 21/0203H10W 20/062H10W 20/092H10P 95/04H10P 95/06
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Claims

Abstract

The polishing pad is suitable for polishing or planarizing a wafer of at least one of semiconductor, optical and magnetic substrates. The polishing pad includes radial feeder grooves in a polishing layer separating the polishing layer into polishing regions. The radial feeder grooves extend at least from a location adjacent the center to a location adjacent the outer edge of the polishing pad. Each polishing region including a series of biased grooves that connects a pair of adjacent radial feeder grooves. A majority of the biased grooves having either an inward bias toward the center of the polishing pad or an outward bias for directing polishing fluid toward the outer edge of the polishing pad.

Claims

exact text as granted — not AI-modified
We claim: 
     
         1 . A polishing pad suitable for polishing or planarizing a wafer of at least one of semiconductor, optical and magnetic substrates, the polishing pad comprising the following:
 a polishing layer having a polymeric matrix and a thickness, the polishing layer including a center, an outer edge and a radius extending from the center to the outer edge of the polishing pad;   radial feeder grooves in the polishing layer separating the polishing layer into regions, the radial feeder grooves extending at least from a location adjacent the center to a location adjacent the outer edge of the polishing pad and wherein there are between  3  and  32  radial feeder grooves; and   each polishing region including a series of biased grooves connecting a pair of adjacent radial feeder grooves, a majority of the biased grooves having either an inward bias toward the center of the polishing pad or an outward bias toward the outer edge of the polishing pad, both the inward and outward biased grooves being for moving polishing fluid toward the outer edge of the polishing pad and either toward the wafer or away from the wafer depending upon inward bias or outward bias and the direction of rotation of the polishing pad wherein the total number of biased grooves is at least fifteen times the total number of radial feeder grooves.   
     
     
         2 . The polishing pad of  claim 1  wherein all polishing regions have the same bias. 
     
     
         3 . The polishing pad of  claim 1  wherein the biased grooves include an inward bias for increasing slurry residence time under a wafer during counterclockwise rotation of the polishing pad and the wafer. 
     
     
         4 . The polishing pad of  claim 1  wherein the biased grooves include an outward bias for decreasing slurry residence time under a wafer during counterclockwise rotation of the polishing pad and the wafer. 
     
     
         5 . The polishing pad of  claim 1  wherein the series of biased grooves connecting a pair of adjacent radial feeder grooves are parallel linear grooves. 
     
     
         6 . A polishing pad suitable for polishing or planarizing a wafer of at least one of semiconductor, optical and magnetic substrates, the polishing pad comprising the following:
 a polishing layer having a polymeric matrix and a thickness, the polishing layer including a center, an outer edge and a radius extending from the center to the outer edge of the polishing pad;   radial feeder grooves in the polishing layer separating the polishing layer into regions, the polishing regions being circular sectors defined by two adjacent radial feeder grooves, a bias line bisecting the polishing regions, the radial feeder grooves extending at least from a location adjacent the center to a location adjacent the outer edge and wherein there are between 3 and 32 radial feeder grooves; and   each polishing region including a series of biased grooves connecting a pair of adjacent radial feeder grooves, a majority of the biased grooves having either an inward bias directed toward the center of the polishing pad at an angle of 20° to 85° from the bisect line or an outward bias directed toward the outer edge of the polishing pad at an angle of 95° to 160° from the bisect line, both the inward and outward biased grooves being for moving polishing fluid toward the outer edge of the polishing pad and either toward the wafer or away from the wafer depending upon inward bias or outward bias and the direction of rotation of the polishing pad wherein the total number of biased grooves is at least fifteen times the total number of radial feeder grooves.   
     
     
         7 . The polishing pad of  claim 6  wherein all polishing regions have the same bias. 
     
     
         8 . The polishing pad of  claim 6  wherein the biased grooves include an inward bias for increasing slurry residence time under a wafer during counterclockwise rotation of the polishing pad and the wafer. 
     
     
         9 . The polishing pad of  claim 6  wherein the biased grooves include an outward bias for decreasing slurry residence time under a wafer during counterclockwise rotation of the polishing pad and the wafer. 
     
     
         10 . The polishing pad of  claim 6  wherein the series of biased grooves connecting a pair of adjacent radial feeder grooves are parallel linear grooves.

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