`Petition for Inter Partes Review
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`
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`DOCKET NO.: 52055.2
`Filed on behalf of: Fujitsu Semiconductor Limited and Fujitsu Semiconductor
`America, Inc.
`David L. McCombs, Reg. No. 32,271
`David M. O’Dell, Reg. No. 42,044
`Richard C. Kim, Reg. No. 40,046
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`By:
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`UNITED STATES PATENT AND TRADEMARK OFFICE
`____________________________________________
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`BEFORE THE PATENT TRIAL AND APPEAL BOARD
`____________________________________________
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`FUJITSU SEMICONDUCTOR LIMITED AND
`FUJITSU SEMICONDUCTOR AMERICA, INC.
`Petitioner
`
`v.
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`ZOND, INC.
`Patent Owner
`
`Case IPR_______________
`
`
`PETITION FOR INTER PARTES REVIEW OF
`U.S. PATENT NO. 7,811,421
`CHALLENGING CLAIMS 1, 2, 8, 10-13, 15-17, 22-25, 27-30, 33, 34, 38, 39,
`42, 43 AND 46-48
`UNDER 35 U.S.C. § 312 AND 37 C.F.R. § 42.104
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`
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`TABLE OF CONTENTS
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`I. Mandatory Notices ........................................................................................ - 1 -
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`A. Real Party-in-Interest ............................................................................... - 1 -
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`B. Related Matters ......................................................................................... - 1 -
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`C. Counsel ..................................................................................................... - 1 -
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`D. Service Information .................................................................................. - 2 -
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`II. Certification of Grounds for Standing .......................................................... - 2 -
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`III. Overview of Challenge and Relief Requested ............................................ - 2 -
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`A. Prior Art Patents and Printed Publications ............................................... - 3 -
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`B. Grounds for Challenge ............................................................................. - 3 -
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`IV. Brief Description of Technology ................................................................. - 4 -
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`A. Plasma ....................................................................................................... - 4 -
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`B.
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`Ions and Excited Atoms ........................................................................... - 5 -
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`V. Overview of the ‘421 Patent ......................................................................... - 7 -
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`A. Summary of Alleged Invention of the ’421 Patent .................................. - 7 -
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`B. Prosecution History .................................................................................. - 7 -
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`VI. Overview of the primary prior art references .............................................. - 8 -
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`A. Summary of the prior art .......................................................................... - 8 -
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`B. Overview of Mozgrin ............................................................................... - 8 -
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`C. Overview of Wang ................................................................................. - 10 -
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`VII. Claim Construction ................................................................................. - 11 -
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`A.
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`“weakly-ionized plasma” and “strongly-ionized plasma” ..................... - 12 -
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`VIII. Specific Grounds for Petition ................................................................. - 14 -
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`A. Ground I: Claims 1, 2, 8, 10-13, 15, 16, 34, 38, 39, 43 and 46-48 are
`anticipated by Mozgrin ................................................................................... - 14 -
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`1.
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`2.
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`3.
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`Independent claim 1 is anticipated by Mozgrin .................................. - 15 -
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`Independent claim 34 is anticipated by Mozgrin ................................ - 23 -
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`Independent claims 46-48 are anticipated by Mozgrin ....................... - 25 -
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`4. Dependent claims 2, 8, 10, 11, 12, 13, 15, 16, 38, 39 and 43 are
`anticipated by Mozgrin ............................................................................... - 27 -
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`i
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`B. Ground II: Claims 1, 2, 8, 10-13, 16, 17, 22-25, 28-30, 33, 34, 39, 42, 43
`and 46-48 are anticipated by Wang ................................................................ - 33 -
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`1.
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`2.
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`3.
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`4.
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`Independent claim 1 is anticipated by Wang ...................................... - 33 -
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`Independent claim 17 is anticipated by Wang .................................... - 39 -
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`Independent claim 34 is anticipated by Wang .................................... - 41 -
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`Independent claims 46-48 are anticipated by Wang ........................... - 42 -
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`5. Dependent claims 2, 8, 10-13, 16, 22-25, 28, 29, 30, 33, 39, 42 and 43
`are anticipated by Wang .............................................................................. - 44 -
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`C. Ground III: Claims 17, 22-25, 27-30, 33, and 42 are obvious over the
`combination of Mozgrin and Lantsman .......................................................... - 50 -
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`1.
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`Independent claim 17 .......................................................................... - 50 -
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`2. Dependent claims 22-25, 27-30, 33 and 42 are obvious over the
`combination of Mozgrin with Lantsman .................................................... - 54 -
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`D. Ground IV: Claims 15, 27 and 38 are obvious over the combination of
`Wang and Mozgrin.......................................................................................... - 56 -
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`IX. Conclusion ................................................................................................. - 59 -
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`
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`TABLE OF AUTHORITIES
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`In re ICON Health & Fitness, Inc., 496 F.3d 1374, 1379 (Fed. Cir. 2007).
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`37 C.F.R. §42.22(a)(1)
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`37 C.F.R. § 42.100(b)
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`37 C.F.R. §42.104(a)
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`37 C.F.R. §42.104(b)(1)-(5)
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`77 Fed. Reg. 48764 (Aug. 14, 2012).
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`iii
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`I. MANDATORY NOTICES
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`A. Real Party-in-Interest
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`Fujitsu Semiconductor Limited and Fujitsu Semiconductor America, Inc. are
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`the real parties-in-interest (“Petitioner”).
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`B. Related Matters
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`Zond has asserted U.S. Patent No. 7,811,421 (“’421 Patent”) (Ex. 1001)
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`against numerous parties in the District of Massachusetts, 1:13-cv-11570-RGS
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`(Zond v. Intel); 1:13-cv-11577-DPW (Zond v. AMD, Inc., et al); 1:13-cv-11581-
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`DJC (Zond v. Toshiba Am. Elec. Comp. Inc.); 1:13-cv-11591-RGS (Zond v. SK
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`Hynix, Inc.); 1:13-cv-11625-NMG (Zond v. Renesas Elec. Corp.) ; 1:13-cv-11634-
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`WGY (Zond v. Fujitsu, et al.); and 1:13-cv-11567-DJC (Zond v. Gillette, Co.) (Ex.
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`1022). Petitioner is also filing additional Petitions for Inter Partes review in
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`several patents related1 to the ’421 Patent.
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`The below-listed claims of the ‘421 Patent are presently the subject of a
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`substantially identical petition for inter partes review styled Intel Corporation v.
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`Zond, Inc., which was filed March 7, 2014 and assigned Case No. IPR2014-00468.
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`Petitioner plans to seek joinder with that inter partes review.
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`C. Counsel
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`1 The related patents, e.g., name the same alleged inventor.
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`- 1 -
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
`
`Lead Counsel: David L. McCombs (Registration No. 32,271)
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`Backup Counsel: David M. O’Dell (Registration No. 42,044)
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`Backup Counsel: Richard C. Kim (Registration No. 40,046)
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`D.
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`Service Information
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`E-mail:
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`david.mccombs.ipr@haynesboone.com
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`david.odell.ipr@haynesboone.com
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`rckim@duanemorris.com
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`Post and hand delivery: David L. McCombs
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`Haynes and Boone, LLP
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`2323 Victory Avenue, Suite 700
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`Dallas, TX 75219
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`Telephone: 214-651-5533
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`Fax: 214-200-0853
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`Counsel agrees to service by email.
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`II. CERTIFICATION OF GROUNDS FOR STANDING
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`Petitioner certifies pursuant to Rule 42.104(a) that the patent for which
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`review is sought is available for inter partes review and that Petitioner is not
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`barred or estopped from requesting an inter partes review challenging the patent
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`claims on the grounds identified in this Petition.
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`III. OVERVIEW OF CHALLENGE AND RELIEF REQUESTED
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`Pursuant to Rules 42.22(a)(1) and 42.104(b)(1)-(2), Petitioner challenges
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`claims 1, 2, 8, 10-13, 15-17, 22-25, 27-30, 33, 34, 38, 39, 42, 43 and 46-48 of the
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`’421 Patent.
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`- 2 -
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`A.
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`Prior Art Patents and Printed Publications
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`The following references are pertinent to the grounds of unpatentability
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
`
`explained below: 2
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`1.
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`D.V. Mozgrin, et al, High-Current Low-Pressure Quasi-Stationary
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`Discharge in a Magnetic Field: Experimental Research, Plasma Physics Reports,
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`Vol. 21, No. 5, pp. 400-409, 1995 (“Mozgrin” (Ex. 1003)), which is prior art under
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`102(b).
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`2.
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`U.S. Pat. No. 6,413,382 (“Wang” (Ex. 1004)), which is prior art under
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`102(b).
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`3.
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`U.S. Patent No. 6,190,512 (“Lantsman” (Ex. 1005)), which is prior art under
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`102(b).
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`B. Grounds for Challenge
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`Petitioner requests cancellation of claims 1, 2, 8, 10-13, 15-17, 22-25, 27-30,
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`33, 34, 38, 39, 42, 43 and 46-48 of the ’421 Patent as unpatentable under 35 U.S.C.
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`§§102-103. This Petition, supported by the declaration of Dr. Uwe Kortshagen
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`2 The ’421 Patent issued prior to the America Invents Act (the “AIA”).
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`Accordingly, Petitioner has used the pre-AIA statutory framework to refer to the
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`prior art.
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`- 3 -
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`(“Kortshagen Decl.” (Ex. 1002))3 filed herewith, demonstrates that there is a
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`reasonable likelihood that Petitioner will prevail with respect to at least one
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`challenged claim and that each challenged claim is not patentable.4 See 35 U.S.C.
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`§ 314(a).
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`IV. BRIEF DESCRIPTION OF TECHNOLOGY
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`A.
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`Plasma
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`A plasma is a collection of ions, free electrons, and neutral atoms.
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`Kortshagen Decl. ¶ 22 (Ex. 1002). The negatively charged free electrons and
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`positively charged ions are present in roughly equal numbers such that the plasma
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`as a whole has no overall electrical charge. The “density” of a plasma refers to the
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`3 Dr. Kortshagen has been retained by Fujitsu. The attached declaration at Ex.
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`1002 is a copy of Dr. Kortshagen’s declaration filed in IPR2014-00468, discussed
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`above.
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`4 The term “challenged claims” as used herein refers to claims 1, 2, 8, 10-13,
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`15-17, 22-25, 27-30, 33, 34, 38, 39, 42, 43 and 46-48 of the ‘421 Patent. Petitioner
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`seeks to invalidate remaining claims of the ‘421 Patent in separate petitions.
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`- 4 -
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`number of ions or electrons that are present in a unit volume. Kortshagen Decl. ¶
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`22 (Ex. 1002).5
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`Plasmas had been used in research and industrial applications for decades
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`before the ‘421 patent was filed. Kortshagen Decl. ¶ 23 (Ex. 1002). For example,
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`sputtering is an industrial process that uses plasmas to deposit a thin film of a
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`target material onto a surface called a substrate (e.g., silicon wafer during a
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`semiconductor manufacturing operation). Kortshagen Decl. ¶ 23 (Ex. 1002). Ions
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`in the plasma strike a target surface causing ejection of a small amount of target
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`material. Kortshagen Decl. ¶ 23 (Ex. 1002). The ejected target material then
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`forms a film on the substrate. Kortshagen Decl. ¶ 23 (Ex. 1002).
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`Under certain conditions, electrical arcing can occur during sputtering.
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`Kortshagen Decl. ¶ 24 (Ex. 1002). Arcing is undesirable because it causes
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`explosive release of droplets from the target that can splatter on the substrate.
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`Kortshagen Decl. ¶ 24 (Ex. 1002). The need to avoid arcing while sputtering was
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`known long before the ‘421 patent was filed. Kortshagen Decl. ¶ 24 (Ex. 1002).
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`Ions and Excited Atoms
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`B.
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`5 The term “plasma density” and “electron density” are often used interchangeably
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`because the negatively charged free electrons and positively charged ions are
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`present in roughly equal numbers in plasmas that do not contain negatively
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`charged ions or clusters. Kortshagen Decl. ¶ 22, FN2 (Ex. 1002).
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`- 5 -
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
`
`Atoms have equal numbers of protons and electrons. Kortshagen Decl. ¶ 25
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`(Ex. 1002). Each electron has an associated energy state. Kortshagen Decl. ¶ 25
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`(Ex. 1002). If all of an atom’s electrons are at their lowest possible energy state,
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`the atom is said to be in the “ground state.” Kortshagen Decl. ¶ 25 (Ex. 1002).
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`On the other hand, if one or more of an atom’s electrons is in a state that is
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`higher than its lowest possible state, then the atom is said to be an “excited atom.”
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`Kortshagen Decl. ¶ 26 (Ex. 1002). Excited atoms are electrically neutral– they
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`have equal numbers of electrons and protons. Kortshagen Decl. ¶ 26 (Ex. 1002).
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`A collision with a free electron (e-) can convert a ground state atom to an excited
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`atom. Kortshagen Decl. ¶ 26 (Ex. 1002). For example, the ‘421 Patent uses the
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`following equation to describe production of an excited argon atom, Ar*, from a
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`ground state argon atom, Ar. See ‘421 Patent at 13:47 (Ex. 1001).
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`Ar + e- Ar* + e-
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`An ion is an atom that has become disassociated from one or more of its
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`electrons. Kortshagen Decl. ¶ 27 (Ex. 1002). A collision between a free, high
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`energy, electron and a ground state or excited atom can create an ion. Kortshagen
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`Decl. ¶ 27 (Ex. 1002). For example, the ‘421 Patent uses the following equations
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`- 6 -
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`
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`to describe production of an argon ion, Ar+, from a ground state argon atom, Ar, or
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`an excited argon atom, Ar*. See ‘421 Patent at 4:20 and 13:496 (Ex. 1001).
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
`
`Ar + e- Ar+ + 2e-
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`Ar* + e- Ar+ + 2e-
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`The production of excited atoms and ions was well understood long before
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`the ‘421 patent was filed. Kortshagen Decl. ¶ 28 (Ex. 1002).
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`V. OVERVIEW OF THE ‘421 PATENT
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`A.
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`Summary of Alleged Invention of the ’421 Patent
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`The claims of the ‘421 Patent are directed to using a single voltage pulse to
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`generate a so called weakly-ionized plasma and then a strongly-ionized plasma in a
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`manner that avoids arcing. Specific claims add operational details such as
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`characteristics of the voltage pulse, using ions in the plasma for sputtering and the
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`type of power supply used.
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`B.
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`Prosecution History
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`During prosecution, the Examiner rejected all pending claims over WO
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`02/103078 A1 (“Kouznetsov”) (Ex. 1006). See 04/21/10 Office Action at 2 (Ex.
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`1012).
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`6 The equation describing production of an argon ion, Ar+, from an excited argon
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`atom, Ar*, is printed incorrectly in the ‘421 patent, i.e., the “*” is omitted. See
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`‘421 Application at ¶[0097] (Ex. 1015).
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`- 7 -
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`The Patent Owner traversed the rejection arguing that rather than a single
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`pulse, Kouznetsov uses two distinct pulses. See 06/23/10 Resp. at 10, ¶ 1
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`(“Kouznetsov does not describe apparatus that generate a voltage pulse between
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`the anode and the cathode assembly that creates a weakly-ionized plasma and then
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`a strongly-ionized plasma from the weakly-ionized plasma. Indeed, Kouznetsov
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`describes methods and apparatus for generating two separate and independent
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`pulses.”) (emphasis added) (Ex. 1013). The claims were then allowed. See
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`08/19/10 Notice of Allowance (Ex. 1014).
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`VI. OVERVIEW OF THE PRIMARY PRIOR ART REFERENCES
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`A.
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`Summary of the prior art
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`As explained in detail below, limitation-by-limitation, there is nothing new
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`or non-obvious in the challenged claims of the ‘421 Patent. Kortshagen Decl. ¶ 32
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`(Ex. 1002).
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`B. Overview of Mozgrin7
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`Mozgrin teaches forming a plasma “without forming an arc discharge.” Fig.
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`7 of Mozgrin, copied below, shows the current-voltage characteristic (“CVC”) of a
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`plasma discharge.
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`7 Mozgrin is art of record, but was not applied substantively during prosecution.
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`- 8 -
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
`
`As shown, Mozgrin divides this CVC into four distinct regions.
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`Mozgrin calls region 1 “pre-ionization.” Mozgrin at 402, right col, ¶ 2 (“Part
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`1 in the voltage oscillogram represents the voltage of the stationary discharge (pre-
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`ionization stage).” (emphasis added)) (Ex. 1003). Kortshagen Decl. ¶ 36 (Ex.
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`1002).
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`Mozgrin calls region 2 “high current magnetron discharge.” Mozgrin at 409,
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`left col, ¶ 4 (“The implementation of the high-current magnetron discharge
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`(regime 2)…” (emphasis added)) (Ex. 1003). Kortshagen Decl. ¶ 37 (Ex. 1002).
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`Application of a high voltage to the pre-ionized plasma causes the transition from
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`region 1 to 2. Kortshagen Decl. ¶ 37 (Ex. 1002). Mozgrin teaches that region 2 is
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`useful for sputtering. Mozgrin at 403, right col, ¶ 4 (“Regime 2 was characterized
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`by an intense cathode sputtering…”) (Ex. 1003).
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`Mozgrin calls region 3 “high current diffuse discharge.” Mozgrin at 409, left
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`col, ¶ 5, (“The high-current diffuse discharge (regime 3)…” (emphasis added))
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`(Ex. 1003). Kortshagen Decl. ¶ 38 (Ex. 1002). Increasing the current applied to
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`the “high-current magnetron discharge” (region 2) causes the plasma to transition
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`to region 3. Kortshagen Decl. ¶ 38 (Ex. 1002). Mozgrin also teaches that region 3
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`is useful for etching, i.e., removing material from a surface. Mozgrin at 409, left
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`col, ¶ 5 (“The high-current diffuse discharge (regime 3) is useful … Hence, it can
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`enhance the efficiency of ionic etching…”) (Ex. 1003). See also Kortshagen Decl.
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`¶ 38 (Ex. 1002).
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`Mozgrin calls region 4 “arc discharge.” Mozgrin at 402, right col, ¶ 3
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`(“…part 4 corresponds to the high-current low-voltage arc discharge…”
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`(emphasis added)) (Ex. 1003). Kortshagen Decl. ¶ 39 (Ex. 1002). Further
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`increasing the applied current causes the plasma to transition from region 3 to the
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`“arc discharge” region 4. Kortshagen Decl. ¶ 39 (Ex. 1002). Within its broad
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`disclosure of a range of issues related to sputtering and etching, Mozgrin describes
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`arcing and how to avoid it. Kortshagen Decl. ¶ 39 (Ex. 1002).
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`C. Overview of Wang8
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`Wang discloses a pulsed magnetron sputtering device having an anode (24),
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`a cathode (14), a magnet assembly (40), a DC power supply (100) (shown in Fig.
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`7), and a pulsed DC power supply (80). See Wang at Figs. 1, 7, 3:57-4:55; 7:56-
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`8:12 (Ex. 1004). Fig. 6 (annotated and reproduced below) shows a graph of the
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`power Wang applies to the plasma. The lower power level, PB, is generated by the
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`8 Wang is art of record, but was not substantively applied during prosecution.
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`- 10 -
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`DC power supply 100 (shown in Fig. 7) and the higher power level, PP, is
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`generated by the pulsed power supply 80. See Wang 7:56-64 (Ex. 1004); see also
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`Kortshagen Decl. ¶ 40 (Ex. 1002). Wang’s lower power level, PB, maintains the
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`plasma after ignition and application of the higher power level, PP, raises the
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`density of the plasma. Wang at 7:17-31 (“The background power level, PB, is
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`chosen to exceed the minimum power necessary to support a plasma... [T]he
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`application of the high peak power, PP, quickly causes the already existing plasma
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`to spread and increases the density of the plasma.”) (Ex. 1004). Kortshagen Decl.
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`¶ 40 (Ex. 1002). Wang applies the teachings of Mozgrin in a commercial,
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`industrial plasma sputtering device. Kortshagen Decl. ¶ 40 (Ex. 1002).
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`VII. CLAIM CONSTRUCTION
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`
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`A claim in inter partes review is given the “broadest reasonable construction
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`in light of the specification.” 37 C.F.R. § 42.100(b). Any claim term that lacks a
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`- 11 -
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`definition in the specification is therefore also given a broad interpretation.9 In re
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`ICON Health & Fitness, Inc., 496 F.3d 1374, 1379 (Fed. Cir. 2007). The
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`following discussion proposes constructions of and support therefore of those
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`terms. Any claim terms not included in the following discussion are to be given
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`their broadest reasonable interpretation in light of the specification as commonly
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`understood by those of ordinary skill in the art. Moreover, should the Patent
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`Owner, in order to avoid the prior art, contend that the claim has a construction
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`different from its broadest reasonable interpretation, the appropriate course is for
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`the Patent Owner to seek to amend the claim to expressly correspond to its
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`contentions in this proceeding. See 77 Fed. Reg. 48764 (Aug. 14, 2012).
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`A.
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`“weakly-ionized plasma” and “strongly-ionized plasma”
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`The challenged claims recite “weakly-ionized plasma” and “strongly-ionized
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`plasma.” These terms relate to the density of the plasma, i.e., a weakly-ionized
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`plasma has a lower density than a strongly-ionized plasma. Kortshagen Decl. ¶ 42
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`(Ex. 1002). With reference to Fig. 6, the ‘421 Patent describes forming a weakly-
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`ionized plasma between times t1 and t2 by application of the low power 330 and
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`9 Petitioner adopts the “broadest reasonable construction” standard as required by
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`the governing regulations. 37 C.F.R. § 42.100(b). Petitioner reserves the right to
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`pursue different constructions in a district court, where a different standard is
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`applicable.
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`- 12 -
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`then goes on to describe forming a strongly-ionized plasma by application of
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`higher power 350. ‘421 Patent at 15:56-61; 16:38-44 (Ex. 1001). The ‘421 Patent
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`also provides exemplary densities for the weakly-ionized and strongly-ionized
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`plasmas. See ‘421 Application at original pending claim 22 (“wherein the peak
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`plasma density of the weakly-ionized plasma is less than about 1012 cm3”);
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`original pending claim 26 (“wherein the peak plasma density of the strongly-
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`ionized plasma is greater than about 1012 cm3”) (Ex. 1015).10
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`Thus, the proposed construction for “weakly-ionized plasma” is “a lower
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`density plasma.” Likewise, the proposed construction for “strongly-ionized
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`plasma” is “a higher density plasma.”
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`Petitioner’s proposed construction is consistent with the position the Patent
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`Owner has taken in other jurisdictions. For example, the Patent Owner, when
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`faced with a clarity objection during prosecution of a related European patent
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`application, argued that “it is [sic] would be entirely clear to the skilled man, not
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`just in view of the description, that a reference to a ‘weakly-ionised plasma’ in the
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`claims indicates a plasma having an ionisation level lower than that of a ‘strongly-
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`10 Pending claims 22 and 26 were canceled during prosecution, but were
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`nonetheless part of the original disclosure of the ‘421 Patent. See also ‘421 Patent
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`at 8:22-28 (Ex. 1001).
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`- 13 -
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`ionized plasma’ and there can be no lack of clarity.” 04/21/08 Response in EP
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`1560943 (Ex. 1016).
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`VIII. SPECIFIC GROUNDS FOR PETITION
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`Pursuant to Rule 42.104(b)(4)-(5), the below sections, and as confirmed in
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`the Kortshagen Decl. ¶ 45 (Ex. 1002), demonstrate in detail how the prior art
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`discloses each and every limitation of claims 1, 2, 8, 10-13, 15-17, 22-25, 27-30,
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`33, 34, 38, 39, 42, 43 and 46-48 of the ’421 Patent, and how those claims are
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`rendered obvious by the prior art.
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`The claim charts that Petitioner served on Feb. 11, 2014 in its ongoing
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`litigation involving the Petitioner and the Patent Owner, showing that the
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`challenged claims are invalid, are submitted hereto as Exhibits 1017-1020 (Exs.
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`1017-1020). Dr. Kortshagen has reviewed those charts and agrees with them.
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`Kortshagen Decl. ¶ 46, 47, 93, 142, and 160 (Ex. 1002).
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`A. Ground I: Claims 1, 2, 8, 10-13, 15, 16, 34, 38, 39, 43 and 46-48
`are anticipated by Mozgrin
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`The claim chart that Petitioner served on Feb. 11, 2014 in its ongoing
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`litigation involving the Petitioner and the Patent Owner, showing that claims 1, 2,
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`8, 10, 11, 15, 16, 34, 38, 39, 43 and 46-48 are anticipated by Mozgrin, is submitted
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`hereto as Exhibit 1017 (Ex. 1017). Dr. Kortshagen’s Declaration additionally
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`contains claims charts showing that claims 12 and 13 are anticipated by Mozgrin.
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`Kortshagen Decl. ¶ 47 (Ex. 1002).
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`1.
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`Independent claim 1 is anticipated by Mozgrin
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`a)
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`The preamble
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`Claim 1 begins, “A sputtering source comprising.” Mozgrin discloses a
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`sputtering source. Mozgrin 403, right col, ¶4 (“Regime 2 was characterized by
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`intense cathode sputtering…”) (emphasis added) (Ex. 1003). Kortshagen Decl. ¶
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`48 (Ex. 1002).
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`b)
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`Limitation (a)
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`Limitation (a) of claim 1 reads “a cathode assembly comprising a sputtering
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`target that is positioned adjacent to an anode.”
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`The ‘421 Patent admits that the claimed cathode assembly and anode were
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`well known. Kortshagen Decl. ¶ 50 (Ex. 1002). For example, the ‘421 Patent
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`shows in prior art Fig. 1 a “cross-sectional view of a known magnetron sputtering
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`apparatus 100…” ‘421 Patent at 3:39-40 (Ex. 1001). The known “magnetron
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`sputtering apparatus 100 also includes a cathode assembly 114 having a target
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`material 116.” ‘421 Patent at 3:51-52 (Ex. 1001). Moreover, “an anode 130 is
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`positioned in the vacuum chamber 104 proximate to the cathode assembly.” ‘421
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`Patent at 4:1-2 (Ex. 1001).
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`Similarly, Mozgrin’s Fig. 1 shows a cathode labeled “1,” that is adjacent to
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`Mozgrin’s anode “2.” Kortshagen Decl. ¶ 51 (Ex. 1002). Mozgrin also discloses
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`that its cathode includes a sputtering target. Kortshagen Decl. ¶ 51(Ex. 1002).
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`Specifically, Mozgrin discusses sputtering that occurs in Region 2. Mozgrin at
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`403, right col., ¶4 (“Regime 2 was characterized by an intense cathode
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`sputtering….”) (Ex. 1003). In a magnetron, the portion of the cathode that can be
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`sputtered is the “sputtering target.” See, e.g., Mozgrin at 403, right col, ¶ 4
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`(“…The pulsed deposition rate of the cathode material…”) (Ex. 1003). See also
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`Kortshagen Decl. ¶ 51 (Ex. 1002).
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`c)
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`Limitation (b)
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`(1)
`“a power supply that generates a voltage pulse
`between the anode and the cathode assembly”
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`Mozgrin’s power supply is shown in Fig. 2. Kortshagen Decl. ¶ 52 (Ex.
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`1002). The upper portion of the ‘421 Patent’s Fig. 6, which shows the ‘421
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`Patent’s voltage pulse, and Mozgrin’s Fig. 3b, which shows the voltage pulse
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`generated by Mozgrin’s power supply, are copied below. As shown, Mozgrin’s
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`voltage pulse is very similar to the ‘421 Patent’s voltage pulse. Kortshagen Decl. ¶
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`52 (Ex. 1002).
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`Excerpt of Fig. 6 of ’421 Patent
`(Ex. 1001)
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`Fig. 3(b) of Mozgrin
`(Ex. 1003)
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`Mozgrin’s voltage pulse is applied between Mozgrin’s anode and cathode
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`assembly. Mozgrin at 401, left col, ¶ 4 (“It was possible to form the high-current
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`quasi-stationary regime by applying a square voltage pulse to the discharge gap
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`which was filled up with either neutral or pre-ionized gas.”) (Ex. 1003). See also
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`Kortshagen Decl. ¶ 52 (Ex. 1002).
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`(2)
`“that creates a weakly-ionized plasma and then a
`strongly-ionized plasma from the weakly-ionized
`plasma”
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`The ‘421 Patent uses the terms “weakly-ionized plasma” and “pre-ionized
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`plasma” synonymously. ‘421 Patent at 8:22-23 (“The weakly-ionized plasma is
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`also referred to as a pre-ionized plasma.”) (Ex. 1001). Mozgrin’s power supply
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`(shown in Fig. 2) generates a pre-ionized plasma in Mozgrin’s region 1. Mozgrin
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`at 402, right col, ¶2 (“Figure 3 shows typical voltage and current oscillograms.…
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`Part I in the voltage oscillogram represents the voltage of the stationary discharge
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`(pre-ionization stage).”) (Ex. 1003).
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`Moreover, the density of Mozgrin’s pre-ionized plasma matches the
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`exemplary density for weakly-ionized plasma given in the ‘421 Patent. ‘421
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`Application at original pending claim 22 (“wherein the peak plasma density of the
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`weakly-ionized plasma is less than about 1012 cm3”) (emphasis added) (Ex.
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`1015); Mozgrin at 401, right col, ¶2 (“[f]or pre-ionization, we used a stationary
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`magnetron discharge; … provided the initial plasma density in the 109 – 1011 cm3
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`range.”) (Ex. 1003) (emphasis added). See also Kortshagen Decl. ¶ 54 (Ex. 1002).
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`After Mozgrin creates the weakly-ionized plasma in region 1, the voltage
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`shown in region 2 of Fig. 3b increases the density of the plasma and forms a
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`strongly-ionized plasma. Kortshagen Decl. ¶ 55 (Ex. 1002). The density of
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`Mozgrin’s region 2 plasma matches the exemplary density for strongly-ionized
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`plasma given in the ‘421 Patent. ‘421 Application at original pending claim 26
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`(“wherein the peak plasma density of the strongly-ionized plasma is greater than
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`about 1012 cm3”) (emphasis added) (Ex. 1015); Mozgrin at 409, left col, ¶ 4 (“The
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`implementation of the high-current magnetron discharge (regime 2) in sputtering
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`… plasma density (exceeding 2x1013 cm-3).)” (emphasis added) (Ex. 1003). See
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`also Kortshagen Decl. ¶ 55 (Ex. 1002).
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`(3)
`“without an occurrence of arcing between the
`anode and the cathode assembly”
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`Limitation (b) of claim 1 continues “without an occurrence of arcing
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`between the anode and the cathode assembly.” Mozgrin explicitly notes that arcs
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`can be avoided. Mozgrin at 400, left col, ¶ 3 (“Some experiments on magnetron
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`systems of various geometry showed that discharge regimes which do not transit
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`to arcs can be obtained even at high currents.”) (Ex. 1003). See also Kortshagen
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`Decl. ¶ 56 (Ex. 1002).
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`
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
`(a) The Patent Owner mischaracterized Mozgrin
`during prosecution of the related U.S. Pat. No.
`7,147,759
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`In addition to the ‘421 Patent, the Patent Owner also owns the related U.S.
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`Pat. No. 7,147,759 (the “’759 Patent” (Ex. 1007)) and the Patent Owner has
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`asserted both the ‘421 and ‘759 Patents in concurrent litigation against the
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`Petitioner. During prosecution of the ‘759 Patent, the Patent Owner argued that
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`Mozgrin did not teach the “without forming an arc” limitation. See 05/02/06 Resp.
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`of ‘759 Patent file history at 2, 5, 7 and 13-16 (Ex. 1021). See also Kortshagen
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`Decl. ¶ 57 (Ex. 1002). However, the Patent Owner was wrong. Kortshagen Decl.
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`¶ 57 (Ex. 1002). Mozgrin does teach creating a weakly-ionized plasma and then a
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`strongly-ionized plasma “without an occurrence of arcing between the anode and
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`the cathode assembly.” Kortshagen Decl. ¶ 57 (Ex. 1002).
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`As shown in Mozgrin’s Fig. 7, if voltage is steadily applied, and current is
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`allowed to grow, the plasma will eventually transition to the arc discharge
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`(Mozgrin’s region 4). However, if the current is limited, the plasma will remain
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`in the arc-free regions 2 (sputtering) or 3 (etching). Kortshagen Decl. ¶ 58 (Ex.
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`1002).
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`Mozgrin is an academic paper and it explores all regions, including the arc
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`discharge region, so as to fully characterize the plasma. But Mozgrin’s discussion
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`of arcing does not mean that arcing is inevitable. Rather, Mozgrin’s explanation
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`U.S. PATENT 7,811,421
`Petition for Inter Partes Review
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`of the conditions under which arcing occurs provides a recipe for avoiding arcs.
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`Kortshagen Decl. ¶ 59 (Ex. 1002). Mozgrin explicitly notes that arcs can be
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`avoided. See Mozgrin at 400, left col, ¶ 3 (“Some experiments on magnetron
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`systems of various geometry showed that discharge regimes which do not transit
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`to arcs can be obtained even at high currents.”) (emphasis added) (Ex. 1003). One
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`of ordinary skill would understand that the arc discharge region should be avoided
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`during an industrial application, such as sputtering. Kortshagen Decl. ¶ 59 (Ex.
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`1002). For example, Plasma Etching: An Introduction, by Manos and Flamm
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`(“Manos”), a well-known textbook on plasma processing, which was published in
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`1989, over a decade before the ‘421 Patent was filed,