Damage-limited lifetime of 193-nm lithography tools as a function of system variables

被引:0
|
作者
Intel Corporation, Santa Clara, CA 95052, United States [1 ]
不详 [2 ]
机构
来源
Appl. Opt. | / 4卷 / 733-738期
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Model diffraction-limited optical systems are examined for the effects of radiation-induced compaction on optical performance. The Zernike phase aberration terms resulting from 193-nm-induced compaction in a model lithographic system are calculated with Fourier optics and ray tracing. Using experimental densification rates and the extracted aberration terms, we develop equations describing a useful system lifetime as a function of relevant system variables. In the example examined, the useful life depends strongly on the throughput, resist sensitivity, and partial coherence. © 1998 Optical Society of America.
引用
收藏
相关论文
共 50 条
  • [1] Damage-limited lifetime of 193-nm lithography tools as a function of system variables
    Schenker, R
    Oldham, W
    APPLIED OPTICS, 1998, 37 (04): : 733 - 738
  • [2] Damage testing of pellicles for 193-nm lithography
    Liberman, V
    Kunz, RR
    Rothschild, M
    Sedlacek, JHC
    Uttaro, RS
    Grenville, A
    Bates, AK
    Van Peski, C
    OPTICAL MICROLITHOGRAPHY XI, 1998, 3334 : 480 - 495
  • [3] 193-nm lithography
    Rothschild, M
    Forte, AR
    Horn, MW
    Kunz, RR
    Palmateer, SC
    Sedlacek, JHC
    LASERS AS TOOLS FOR MANUFACTURING OF DURABLE GOODS AND MICROELECTRONICS, 1996, 2703 : 398 - 404
  • [4] 193-NM LITHOGRAPHY
    ROTHSCHILD, M
    FORTE, AR
    HORN, MW
    KUNZ, RR
    PALMATEER, SC
    SEDLACEK, JHC
    IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS, 1995, 1 (03) : 916 - 923
  • [5] Novel fluorinated polymers for application in 193-nm lithography and 193-nm immersion lithography
    Yamashita, Tsuneo
    Ishikawa, Takuji
    Yoshida, Tomohiro
    Hayami, Takashi
    Aoyama, Hirokazu
    ADVANCES IN RESIST TECHNOLOGY AND PROCESSING XXIII, PTS 1 AND 2, 2006, 6153 : U783 - U795
  • [6] Marathon damage testing of pellicles for 193-nm lithography
    Grenville, A
    Liberman, V
    Kunz, RR
    Rothschild, M
    Sedlacek, JHC
    Uttaro, R
    17TH ANNUAL SYMPOSIUM ON PHOTOMASK TECHNOLOGY AND MANAGEMENT, 1998, 3236 : 456 - 463
  • [7] Photoresists for 193-nm lithography
    Allen, RD
    Wallraff, GM
    Hofer, DC
    Kunz, RR
    IBM JOURNAL OF RESEARCH AND DEVELOPMENT, 1997, 41 (1-2) : 95 - 104
  • [8] Europeans target 193-nm lithography
    Moss, T
    PHOTONICS SPECTRA, 1996, 30 (03) : 27 - 28
  • [9] Small-field exposure system for 193-nm lithography
    Kim, DH
    Kim, JS
    Lee, KH
    Choi, SS
    Chung, HB
    Yoo, HJ
    Kim, BW
    JOURNAL OF THE KOREAN PHYSICAL SOCIETY, 1998, 32 (04) : 486 - 490
  • [10] Bilayer resist approach for 193-nm lithography
    Schaedeli, U
    Tinguely, E
    Blakeney, AJ
    Falcigno, P
    Kunz, RR
    ADVANCES IN RESIST TECHNOLOGY AND PROCESSING XIII, 1996, 2724 : 344 - 354
12345