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X-RAY MASK DEVELOPMENT BASED ON SIC MEMBRANE AND W-ABSORBER

被引:24
作者
CHAKER, M [1 ]
BOILY, S [1 ]
DIAWARA, Y [1 ]
ELKHAKANI, MA [1 ]
GAT, E [1 ]
JEAN, A [1 ]
LAFONTAINE, H [1 ]
PEPIN, H [1 ]
VOYER, J [1 ]
KIEFFER, JC [1 ]
HAGHIRIGOSNET, AM [1 ]
LADAN, FR [1 ]
RAVET, MF [1 ]
CHEN, Y [1 ]
ROUSSEAUX, F [1 ]
机构
[1] CNRS, L2M, F-92220 BAGNEUX, FRANCE
来源
JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B | 1992年 / 10卷 / 06期
关键词
D O I
10.1116/1.585910
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
We report a detailed description of x-ray mask technology based on SiC membrane and tungsten absorber. Amorphous SiC films were prepared using either a 100 kHz plasma-enhanced chemical vapor deposition (PECVD) system (allowing a high throughput) or a laser ablation deposition (LAD) technique. The PECVD a-SixC1-x:H films have a maximum Si-C bond density at x=0.5, a hydrogen content of 27 at. % and a high-compressive stress (1 GPa). The LAD films are stoichiometric, hydrogen-free, and under high-compressive stress (1.4 GPa). In order to achieve the tensile stress range (20-40 MPa) required for membrane fabrication, we developed a well-controlled rapid thermal annealing (RTA) process. At 633 nm, the resulting PECVD and LAD membranes have an optical transparency of 75% and 40%, respectively, and their corresponding biaxial Young's moduli are 250+/-30 and 360+/-60 GPa. A novel approach using RTA for ''fine tuning'' of the tungsten stress is also proposed. Low stress ( <10 MPa) is obtained for W layers initially under compressive stress lower than 300 MPa. Finally, using an e-beam patterning process based on a single resist layer and reactive ion etching for the pattern transfer, x-ray masks with linewidths down to 100 nm were developed.
引用
收藏
页码:3191 / 3195
页数:5
相关论文
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