[1] CHOU S Y, KRAUSS P R, RENSTROM P J, et al.. Imprint of sub-25nm vias and trenches in polymer [J]. Appl. Phys. Lett., 1995, 67 (21): 2114-2116.

[2] CHOU S Y, KRARAA P P, ZHANG W, et al.. Sub-10 nm imprint lithography and applications [J]. J Vac. Sci. Technol. B, 1997, 15 (6): 2897-2904.

[3] COLBURN M S, JOHNSON S, STEWART M, et al.. Step and flash imprint lithography: an alternative approach to high resolution patterning [J]. SPIE, 1999, 3676:379-389.

[4] ZHANG H H, HU X F, FAN X Q, et al.. Nanoimprint lithography technology [J]. J. Huazhong Univ. of Sci. & Tech. (Nature Science Edition)，2004, 32(12): 57-59. (in Chinese)

[5] CHEN F, GAO H J, LIU ZH F. Hot embossing lithography[J]. Micronanoelectronic Technology，2004, 41 (10): 1-9. (in Chinese)

[6] SUN H W, LIU J Q, CHEN D, et al.. Nanoimprint technology[J].Electronics Process Technology, 2004, 25 (3): 93-98. (in Chinese)

[7] WEI Z Y， XIONG X D， DU J D， et al.. Flow behavior of resist in room-temperature micro-imprinting and its process optimization [J]. Opt. Precision Eng., 2010，18(8): 1822-1832.(in Chinese)

[8] LAN H B, DING Y C, LIU H Z, et al.. Review of template fabrication for nanoimprint lithography [J]. Journal of Mechanical Engineering, 2009,45(6): 1-13. (in Chinese)

[9] MASAKI Y, YUKIHIRO T, HIROYUKI Y, et al.. Application of nanoimprint lithography to fabrication of distributed feedback laser diodes［J］. Japanese Applied Physics, 2009, 48: 06FH111-4.

[10] WANG D L, ZHOU N, WANG L, et al.. Study of nanoimprint lithography in fabrication DFB gratings for semiconductor laser diodes[J]. Micronanoelectronic Technology，2009, 47 (1): 1-4. (in Chinese)

[11] FAN D SH, XIE CH Q, CHEN D P. Stamp fabrication in nanoimprint lithography [J]. Equipment for Electronic Products Manufacturing, 2005, 3 (2): 26-32. (in Chinese)