Title :
Hardening process for plasma deposited planar amorphous carbon films used in bilayer resists
Author :
Pang, S.W. ; Goodman, R.B. ; Horn, M.W.
Author_Institution :
MIT Lincoln Lab., Lexington, MA, USA
Abstract :
A dry planarization process has been developed to produce planar amorphous carbon (a-C:H) films. These films provide a high degree of planarization over large distances, and they can be deposited at room temperature with low ion bombardment energy (10 V) and high deposition rate (300 nm/min). Depending on the deposition conditions and subsequent processing requirements, a hardening step may be needed. Various degrees of hardness can be obtained by heating the samples and/or exposing them to a low-power plasma. One effective hardening process is to expose the films to a low-power N2 discharge (5-mW/cm2 RF power and -10-V DC bias voltage) at 150°C and 500 mtorr for 30 min. Excimer laser projection lithography has been used to define submicrometer patterns in bilayers which consist of a wet or dry deposited inorganic photoresist applied on top of the planarization layers
Keywords :
VLSI; carbon; hydrogen; integrated circuit technology; metallisation; photolithography; 10 V; 150 degC; 30 min; 5 nm/s; 500 mtorr; IC technology; VLSI; amorphous C:H films; bilayer resists; deposited at room temperature; deposition conditions; deposition rate; dry planarization process; excimer laser projection lithography; hardening process; hardening step; inorganic photoresist; low ion bombardment energy; low-power N2 discharge; low-power plasma; multilevel interconnection; planarization over large distances; submicrometer patterns; subsequent processing requirements; Amorphous materials; Optical films; Planarization; Plasma materials processing; Plasma temperature; Resists; Substrates; Surface morphology; Surface topography; Voltage;
Conference_Titel :
VLSI Multilevel Interconnection Conference, 1990. Proceedings., Seventh International IEEE
Conference_Location :
Santa Clara, CA
DOI :
10.1109/VMIC.1990.127922
