影像科学与光化学
影像科學與光化學
영상과학여광화학
IMAGING SCIENCE AND PHOTOCHEMISTRY
2012年
1期
1-8
,共8页
山口佳一%征矢野晃雅%島基之
山口佳一%徵矢野晃雅%島基之
산구가일%정시야황아%도기지
光刻技术%纳米器件%分辨力增强%光刻胶材料
光刻技術%納米器件%分辨力增彊%光刻膠材料
광각기술%납미기건%분변력증강%광각효재료
lithography%nano devices%resolution enhancement%photo resist materials
光刻技术在半导体器件大规模生产中发挥重要作用.今天,多数先进半导体生产都已经应用ArF准分子激光浸润光刻技术.双重图像曝光和侧壁图像转移技术使ArF准分子激光浸润光刻技术延伸到32纳米半节距(HP)器件的制造成为可能.为了制造更小尺寸的器件,必须开发新的制造工艺.极端紫外线光刻是制造22纳米半节距甚至更小尺寸半导体器件的先进下一代光刻技术解决方案.另外,其他技术解决方案,如纳米压印光刻技术和无掩模直描光刻技术等也被考虑用于制造更小节点尺寸的器件,但是目前这些方案仅仅处在研发阶段,而且在现阶段就已经呈现出在大规模生产中的诸多困难.本文从材料的角度对光刻技术进行一个整体描述,并对光刻技术未来趋势进行讨论.
光刻技術在半導體器件大規模生產中髮揮重要作用.今天,多數先進半導體生產都已經應用ArF準分子激光浸潤光刻技術.雙重圖像曝光和側壁圖像轉移技術使ArF準分子激光浸潤光刻技術延伸到32納米半節距(HP)器件的製造成為可能.為瞭製造更小呎吋的器件,必鬚開髮新的製造工藝.極耑紫外線光刻是製造22納米半節距甚至更小呎吋半導體器件的先進下一代光刻技術解決方案.另外,其他技術解決方案,如納米壓印光刻技術和無掩模直描光刻技術等也被攷慮用于製造更小節點呎吋的器件,但是目前這些方案僅僅處在研髮階段,而且在現階段就已經呈現齣在大規模生產中的諸多睏難.本文從材料的角度對光刻技術進行一箇整體描述,併對光刻技術未來趨勢進行討論.
광각기술재반도체기건대규모생산중발휘중요작용.금천,다수선진반도체생산도이경응용ArF준분자격광침윤광각기술.쌍중도상폭광화측벽도상전이기술사ArF준분자격광침윤광각기술연신도32납미반절거(HP)기건적제조성위가능.위료제조경소척촌적기건,필수개발신적제조공예.겁단자외선광각시제조22납미반절거심지경소척촌반도체기건적선진하일대광각기술해결방안.령외,기타기술해결방안,여납미압인광각기술화무엄모직묘광각기술등야피고필용우제조경소절점척촌적기건,단시목전저사방안부부처재연발계단,이차재현계단취이경정현출재대규모생산중적제다곤난.본문종재료적각도대광각기술진행일개정체묘술,병대광각기술미래추세진행토론.
Optical lithography plays an important role within high volume manufacturing (HVM) of semiconductor devices.Most "State of the art" Fabs have implemented ArF immersion technology today.Double patterning,double exposure,and side-wall image transfer technology allow for the extension of ArF immersion into 32 nm half-pitch (HP) application.In order to fabricate finer patterns,it is necessary to develop new processes.EUV lithography is a leading next generation solution for 22 nm HP and beyond.In addition,alternative solutions such as nanoimprint lithography and mask-less technology are also being considered for advanced nodes,however,they are only in the development stage at this time and in their current state represent a lot of challenges for HVM.In this paper,an overview of lithography is described from the aspect of "Materials".Additionally,future trends in lithography will be discussed.
