13255450 (P.T.A.B. Mar. 20, 2017)

Ex Parte Ishibashi et al

Patent Trial and Appeal BoardMar 20, 2017

13255450 (P.T.A.B. Mar. 20, 2017)

United States Patent and Trademark Office UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O.Box 1450 Alexandria, Virginia 22313-1450 www.uspto.gov APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 13/255,450 11/04/2011 Shinichi Ishibashi Q125798 7001 23373 7590 03/22/2017 SUGHRUE MION, PLLC 2100 PENNSYLVANIA AVENUE, N.W. SUITE 800 WASHINGTON, DC 20037 EXAMINER MAYY, MOHAMMAD ART UNIT PAPER NUMBER 1718 NOTIFICATION DATE DELIVERY MODE 03/22/2017 ELECTRONIC Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address(es): PPROCESSING@SUGHRUE.COM sughrue@sughrue.com USPTO@sughrue.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte SHINICHIISHIBASHI, AKIRA YAMANE, and MASATO FUKUSHIMA Appeal 2016-002672 Application 13/255,450 Technology Center 1700 Before ADRIENE LEPIANE HANLON, CATHERINE Q. TIMM, and JAMES C. HOUSEL, Administrative Patent Judges. PER CURIAM. DECISION ON APPEAL1 Appellants2 filed an appeal under 35 U.S.C. § 134 from the Examiner’s decision finally rejecting claims 1—5, 7—12, and 14—20.3 We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM-IN-PART, but enter NEW GROUNDS OF REJECTION under 37 C.F.R. § 41.50(b). 1 Our decision refers to Appellants’ Specification filed October 1, 2014 (Spec.), Appellants’ Appeal Brief filed August 27, 2015 (Br.), and the Examiner’s Answer delivered December 8, 2015 (Ans.). 2 Appellants identify the real party in interest as SHOWA DENKO K.K. Br. 2. 3 Claim 6 has been withdrawn from consideration and is not before us on appeal. Appeal 2016-002672 Application 13/255,450 STATEMENT OF THE CASE The subject matter on appeal relates to methods of producing a magnetic recording medium having a magnetically separated magnetic recording pattern (see, e.g., claim 1). Appellants disclose that attempts are being made to increase the recording density of magnetic recording media in view of strong demands for such densities. Spec. H 2, 3. However, as track densities increase, mutual interference tends to occur between magnetically recorded information within adjacent tracks, which causes a magnetized transition region between tracks to act as a source of noise. Id. at 14. The noise causes problems, such as deterioration of a signal to noise ratio, which in turn leads to deterioration of a bit error rate. Id. Moreover, to increase surface recording density, the size of each recording bit must be reduced and the saturation magnetization and magnetic film thickness must be maximized for each recording bit. Id. at | 5. However, magnetization reversal induced by heat fluctuation may cause recording data to be erased as the recording bits are reduced in size and the minimum magnetization volume per bit is reduced. Id. Appellants further disclose that prior methods are undesirable because a surface of a magnetic layer is oxidized or halogenated or because the magnetic layer is physically processed, which generates contaminating dust and reduces surface smoothness. Id. at|| 15—16. In view of the above, Appellants disclose a method that does not oxidize or halogenate a surface of the magnetic layer and does not contaminate the surface with dust. Id. at 117. 2 Appeal 2016-002672 Application 13/255,450 Independent claim 1 is illustrative and is reproduced below from the Claims Appendix of the Appeal Brief.4 The limitations at issue are italicized. 1. A method of producing a magnetic recording medium having a magnetically separated magnetic recording pattern, comprising, in this order: a step of forming a magnetic layer on top of a non magnetic substrate; a step of forming a mask layer for forming a magnetic recording pattern on top of the magnetic layer; and a step of irradiating an ion beam onto regions in the magnetic layer which are not covered by the mask layer, removing an upper layer portion of the magnetic layer at the regions irradiated with the ion beam, and reforming magnetic properties of a lower layer portion of the magnetic layer at the regions irradiated with the ion beam to form a plurality of recesses in the magnetic layer, wherein two or more types of positive ions having different masses are used for the ion beam, and an ion gun for forming the ion beam has a positive electrode thatforces out positive ions from an ion source towards a substrate side, and a negative electrode that accelerates the positive ions towards the substrate side. The claims on appeal stand rejected as follows: (1) claims 1, 2, 7—12, and 14—20 under 35 U.S.C. § 103(a) as unpatentable over Kamata5 in view of Fujita6 and further in view of Aisenberg;7 (2) claim 3 under 35 U.S.C. § 103(a) as unpatentable over Kamata 4 Br. 12. 5 Kamata et al., US 7,067,207 B2, issued June 27, 2006 (“Kamata”). 6 Fujita et al., US 2004/0190201 Al, published Sept. 30, 2004 (“Fujita”). 7 Aisenberg, US 3,904,505, issued Sept. 9, 1975 (“Aisenberg”). 3 Appeal 2016-002672 Application 13/255,450 in view of Fujita and further in view of Aisenberg and further in view of Physical Electronics;8 (3) claim 4 under 35 U.S.C. § 103(a) as being unpatentable over Kamata in view of Fujita and further in view of Aisenberg and further in view of Physical Electronics and further in view of Wakalopulos;9 and (4) claim 5 under 35 U.S.C. § 103(a) as being unpatentable over Kamata in view of Fujita and further in view of Aisenberg and further in view of Wakalopulos. ANALYSIS Rejection over Kamata, Fujita, and Aisenberg Claims 1, 2, 7—12, and 14—20 are rejected under 35 U.S.C. § 103(a) as unpatentable over Kamata in view of Fujita and further in view of Aisenberg. The dispositive issue on appeal is whether Appellants have identified a reversible error in the Examiner’s reason to combine the positive and negative electrodes of Aisenberg with Kamata, as modified by Fujita. Appellants have identified such an error. The Examiner finds Kamata discloses a method of producing a magnetic recording medium in which a magnetic layer is formed over a non magnetic substrate, a mask layer is formed over the magnetic layer, an ion beam is irradiated onto regions of the magnetic layer not covered by the 8 Technician’s Model 11-068 Ion Gun Control Component Manual, Part No. 647203 Rev. A, Physical Electronics, Inc., pp. 1-3 and 4-1, 2000. 9 Wakalopulos, US 6,975,073 B2, issued Dec. 13, 2005 (“Wakalopulos”). 4 Appeal 2016-002672 Application 13/255,450 mask, and magnetic properties of a lower portion of the magnetic layer are reformed at irradiated regions. Ans. 2. The Examiner finds Kamata does not disclose removing an upper layer portion of the magnetic layer or using an ion gun having a positive electrode that forces out positive ions from an ion source towards a substrate side and a negative electrode that accelerates the positive ions towards the substrate side, as recited in claim 1. Ans. 2—3. The Examiner finds Fujita discloses forming a magnetic layer over a non-magnetic substrate, forming a mask over the magnetic layer, and removing an upper portion of the magnetic layer not covered by the mask using ion etching. Id. at 3. The Examiner concludes it would have been obvious to modify Kamata in view of Fujita to prepare for subsequent steps of forming a magnetic recording medium. Id. The Examiner further finds Aisenberg discloses a positive ion beam ion gun having a positive electrode to force out positive ions from an ion source towards a substrate side and a negative electrode to accelerate the positive ions towards a substrate side. Id. Aisenberg discloses an apparatus for thin film deposition. Aisenberg 1:9—10. For the deposition of a silicon film 2110 onto a substrate 22, Aisenberg discloses plasma ion source 10 having gas input line 12 and silicon electrodes 14,15. Id. at 2:50-64; Fig. 1. A neutral gas, such as argon, hydrogen, or helium, or an active gas, such as nitrogen or oxygen, or a mixture thereof is introduced into the plasma ion source via gas input line 12. Id. at 3:7—11. Ions produced from the gas bombard silicon electrodes 10 Throughout this Decision, for clarity, we present labels to elements in figures in bold font, regardless of their presentation in the original document. 5 Appeal 2016-002672 Application 13/255,450 14,15, causing silicon atoms to sputter or vaporize into a discharge space of plasma ion source 10 where the silicon atoms can be ionized. Id. at 3:7—14. Anode extraction electrode 24 is biased as a positive anode to extract electrons from plasma source 10. Id. at 3:39-42. Extraction electrode 24 pulls electrons from plasma source 10, which pull positive ions along with them. Id. at 3:61—64. The device of Aisenberg further includes constrictor electrode 26, which is operated as a cathode. Id. at 3:48—52. The Examiner concludes it would have been obvious to modify Kamata, as modified by Fujita, in view of Aisenberg to permit a glow discharge ion source to operate at a lower pressure for faster processing time. Id. at 4. Appellants contend it would not have been obvious to combine the positive and negative electrodes of Aisenberg with Kamata, as modified by Fujita, because Aisenberg is directed to a deposition apparatus, not an ion gun. Br. 10. These arguments are persuasive. The Examiner does not sufficiently explain why one of ordinary skill in the art would have modified the process of Kamata, which irradiates a ferromagnetic layer with ions to convert portions of the ferromagnetic layer into soft magnetic material, to use the electrodes of Aisenberg, which creates ions from a gas source, bombards silicon electrodes with the gas ions to create silicon ions, and draws the silicon ions towards a substrate with the electrodes to deposit a film upon the substrate. In view of the above, Appellants have identified a reversible error in the Examiner’s reason to combine the positive and negative electrodes of 6 Appeal 2016-002672 Application 13/255,450 Aisenberg with Kamata, as modified by Fujita, to provide the method of claim 1. Claims 2, 7—12, and 14—20 depend from claim 1. For the reasons set forth above, the rejection of claims 1, 2, 7—12, and 14—20 under § 103 over Kamata in view of Fujita and further in view of Aisenberg is not sustained. Rejection of Claim 3 over Kamata, Fujita, Aisenberg, and Physical Electronics Claim 3 is rejected under 35 U.S.C. § 103(a) as unpatentable over Kamata in view of Fujita and further in view of Aisenberg and further in view of Physical Electronics. Claim 3 depends from claim 1. The Examiner’s reliance on Physical Electronics does not cure the deficiencies discussed above with regard to claim 1. Therefore, we do not sustain the § 103 rejection of claim 3. NEW GROUNDS OF REJECTION Claims E 2, 5, 7—12, and 14—20 Pursuant to our authority under 37 C.F.R. § 41.50(b), we enter the following new ground of rejection of claims 1, 2, 5, 7—12, and 14—20 under 35 U.S.C. § 103(a) as unpatentable over Kamata in view of Fujita, Wakalopulos, and Aisenberg. With regard to claim 1, Kamata discloses a prior art manufacturing method in which ferromagnetic thin film layer 120 is formed on substrate 110, resist pattern 130 serves as a mask to form a pattern of recording bits, ferromagnetic thin film layer 120 is etched by ion-milling to form the pattern, and non-magnetic layer 140 is coated onto the ferromagnetic thin 7 Appeal 2016-002672 Application 13/255,450 film layer 120. Kamata 2:42—52. As shown in Figure 1C of Kamata, ferromagnetic thin film layer 120 is partially removed via the ion-milling process, with a lower portion of ferromagnetic thin film layer 120 remaining after an upper portion is removed. Kamata further discloses a method of manufacturing a magnetic recording medium comprising, among other things, forming ferromagnetic layer 35 on nonmagnetic substrate 15, forming photoresist 70 (i.e., mask layer) on ferromagnetic layer 35, forming recessed parts in photoresist 70 with stamper 60, and removing a remaining portion of photoresist 70 at the bottom of the recessed parts via oxygen plasma ashing. Kamata 19:8—22. Thereafter, portions of the ferromagnetic layer 35 not covered by the photoresist 70 are irradiated by low mass rare gas ions, which have a positive charge, to convert the exposed portions of ferromagnetic layer 35 into soft magnetic portions 25. Id. at 19:23—26. As shown in Figures 1 ID and 1 IE of Kamata, an upper portion of the ferromagnetic layer is not removed by the irradiation process. Kamata further discloses helium and neon ion as preferred ions because low mass rare gas ions can prevent sputter etching of the ferromagnetic layer when it is irradiated with the ions. Id. at 19:26-29. Fujita discloses providing intermediary body 26 made of a non magnetic material, forming protective layer 15 on intermediary body 26, forming recording layer 30 (i.e., magnetic material) on protective layer 15, forming first and second masks 32, 34 over recording layer 30, and removing an upper portion of recording layer 30 not covered by the masks via ion etching. Fujita 69-75. As shown in Figure 8 of Fujita, the recording layer 30 is completely removed by the ion etching step at areas 8 Appeal 2016-002672 Application 13/255,450 where recesses were previously located in first mask 32 (depicted in Figure 7 of Fujita). Based on the above, one of ordinary skill in the art would have understood Kamata and Fujita demonstrate ion irradiation of a magnetic layer as a result-effective process that can be optimized to produce different results. Specifically, Kamata demonstrates irradiation of a magnetic layer with ions can partially remove portions of the magnetic layer irradiated with ions, as depicted in Figure 1C of Kamata, or not remove a portion of the magnetic layer, as shown in Figures 1 ID and 1 IE of Kamata. Fujita further demonstrates irradiation of a magnetic layer can cause complete removal of portions of the magnetic layer irradiated with ions, as depicted in Figure 8 of Fujita. In view of these teachings of Kamata and Fujita, it would have been obvious, as a matter of routine optimization to arrive at the level of ion irradiation necessary for partial removal of the upper portion of ferromagnetic layer 35 and reformation of the magnetic properties of a lower portion of ferromagnetic layer 35 (e.g., forming soft magnetic portions 25). “[Djiscovery of an optimum value of a result effective variable in a known process is ordinarily within the skill of the art.” In re Boesch, 617 F.2d 272, 276 (CCPA 1980). Appellants argue neither Kamata nor Fujita teaches or suggests removal of an upper layer portion of the magnetic layer at regions irradiated with an ion beam and reforming magnetic properties of a lower layer portion of the magnetic layer at the irradiated regions, as recited in claim 1, because the references are silent with regard to these two limitations. Br. 7—8. Appellants contend the Examiner admits Kamata does not teach removal of 9 Appeal 2016-002672 Application 13/255,450 the upper layer portion, as it is protective layer 15, not magnetic recording layer 14, of Fujita that is partially removed. Id. at 6—8. Moreover, Appellants argue the combination of Kamata and Fujita utilizes impermissible hindsight. Id. at 8. These arguments are unpersuasive because the test for obviousness is not that the claimed invention must be expressly suggested in any one or all of the references, but what the combined teachings of the references would have suggested to one of ordinary skill in the art. In re Keller, 642 F.2d 413, 425 (CCPA 1981). As described above, the disclosures of Kamata and Fujita demonstrate the irradiation and removal of a portion of the magnetic layer with an ion beam is a result-effective process that may be routinely optimized by one of ordinary skill in the art. As a result, it would have been obvious for one of ordinary skill in the art to routinely optimize the ion irradiation of Kamata so that an upper portion of ferromagnetic layer 35 is partially removed and the magnetic properties of a lower portion of ferromagnetic layer 35 irradiated by ions are reformed. Kamata, as modified by Fujita, does not disclose using an ion gun having a positive electrode that forces out positive ions from an ion source towards a substrate side and a negative electrode that accelerates the positive ions towards the substrate side, as recited in claim 1. Wakalopulos discloses an ion plasma beam generating device including plasma chamber 10 into which gas flows. Wakalopulos abstract; 3:11—13, 26—28. Wakalopulos discloses the gas may be helium, hydrogen, air, or another gas source. Id. at 3:28—29. The gas is converted into a plasma by applying a positive voltage to the gas via a wire 52. Id. at 3:36— 39. One of ordinary skill in the art would have recognized positive gaseous 10 Appeal 2016-002672 Application 13/255,450 ions would have been repelled by the positive voltage of wire 52. The positive ions are further attracted to cathode surface 22, which has a negative voltage. Id. at 3:49-50. Wakalopulos demonstrates it was known in the art to use positively and negatively charged elements to accelerate positively charged ions. We conclude it would have been obvious to one of ordinary skill in the art to modify Kamata, as modified by Fujita, to use a positive electrode and a negative electrode as devices to accelerate positive ions, such as to force out (i.e., repel) positive ions from an ion source and accelerate the ions towards a substrate, as recited in claim 1, because it would have been a combination of known elements according to known methods to produce a predictable result. “The combination of familiar elements according to known methods is likely to be obvious when it does no more than yield predictable results.” KSRInt'l Co. v. Teleflex Inc., 550 U.S. 398, 416 (2007). With regard to dependent claims 2, 5, 7—12, and 14—20, Appellants do not direct us to any error in the Examiner’s findings of fact or conclusions of law set forth at pages 4—5 of the Examiner’s Answer. Therefore, in addition to the findings set forth above in the new ground of rejection for claim 1, we adopt the Examiner’s findings and conclusions of law set forth in the Examiner’s Answer for rejecting claims 2, 5, 7—12, and 14—20. In summary, claims 1, 2, 5, 7—12, and 14—20 are rejected under 35 U.S.C. § 103(a) as unpatentable over Kamata in view of Fujita, Wakalopulos, and Aisenberg under this new ground of rejection. Claim 3 Pursuant to our authority under 37 C.F.R. § 41.50(b), we enter the following new ground of rejection of claim 3 under 35 U.S.C. § 103(a) as 11 Appeal 2016-002672 Application 13/255,450 unpatentable over Kamata in view of Fujita, Wakalopulos, and Aisenberg and further in view of Physical Electronics. Claim 3 recites further limitations for the ion gun of claim 1. Br. 13. Appellants do not direct us to any error in the Examiner’s findings of fact or conclusion of law set forth at page 6 of the Examiner’s Answer for the § 103 rejection of claim 3. Therefore, in addition to the findings set forth above in the new ground of rejection for claim 1, we adopt the Examiner’s findings and conclusion of law set forth in the Examiner’s Answer for rejecting claim 3. Claim 4 Claim 4 is rejected under 35 U.S.C. § 103(a) as being unpatentable over Kamata in view of Fujita and further in view of Aisenberg and further in view of Physical Electronics and further in view of Wakalopulos. This combination of references includes the combination of references applied in the new ground of rejection set forth above for rejecting claim 1. Appellants do not direct us to any error in the Examiner’s findings of fact or conclusion of law set forth at pages 6—7 of the Examiner’s Answer for the § 103 rejection of claim 4. Therefore, we affirm the § 103 rejection of claim 4 over Kamata in view of Fujita and further in view of Aisenberg and further in view of Physical Electronics and further in view of Wakalopulos. Claim 5 Claim 5 is rejected over the combination of Kamata, Fujita, Wakalopulos, and Aisenberg. Ans. 8. This is the same combination applied in the § 103 rejection set forth above for claim 1 under the new grounds of rejection. Appellants do not direct us to any error in the Examiner’s findings of fact or conclusion of law set forth at page 8 of the Examiner’s Answer for 12 Appeal 2016-002672 Application 13/255,450 the § 103 rejection of claim 5. Therefore, we affirm the § 103 rejection of claim 5 over the combination of Kamata, Fujita, Wakalopulos, and Aisenberg. CONCLUSION On the record before us, we: A. do not sustain the rejection of claims 1,2, 7—12, and 14—20 under § 103 over Kamata in view of Fujita and further in view of Aisenberg; B. do not sustain the rejection of claim 3 under § 103 over Kamata in view of Fujita and Aisenberg; C. enter a new ground of rejection under § 103 for claims 1, 2, 7— 12, and 14—20 over Kamata in view of Fujita, Wakalopulos, and Aisenberg; D. sustain the rejection of claim 5 under § 103 over Kamata in view of Fujita, Wakalopulos, and Aisenberg; E. enter a new ground of rejection under § 103 for claim 3 over Kamata in view of Fujita, Wakalopulos, and Aisenberg and further in view of Physical Electronics; and F. sustain the rejection of claim 4 under § 103 over Kamata in view of Fujita, Aisenberg, Physical Electronics, and Wakalopulos. DECISION The decision of the Examiner to reject claims 1—5, 7—12, and 14—20 is affirmed-in-part, with new grounds of rejection pursuant to 37 C.F.R. § 41.50(b). 13 Appeal 2016-002672 Application 13/255,450 TIME PERIOD FOR RESPONSE This decision contains a new ground of rejection pursuant to 37 C.F.R. § 41.50(b) (2015). This section provides that “[a] new ground of rejection . . . shall not be considered final for judicial review.” 37 C.F.R. § 41.50(b) also provides that the Appellants, WITHIN TWO MONTHS FROM THE DATE OF THE DECISION, must exercise one of the following two options with respect to the new ground of rejection to avoid termination of the appeal as to the rejected claims: (1) Reopen prosecution. Submit an appropriate amendment of the claims so rejected or new evidence relating to the claims so rejected, or both, and have the matter reconsidered by the examiner, in which event the proceeding will be remanded to the examiner. . . . (2) Request rehearing. Request that the proceeding be reheard under § 41.52 by the Board upon the same Record. . . . No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1) (2015). AFFIRMED-IN-PART NEW GROUND OF REJECTION. 37 C.F.R, $ 41.50(b) 14