Title :
FIB tilting method for thin TEM lamella preparation
Author :
Liew Kaeng Nan ; Lee Meng Lung ; Chen Tung Hung
Author_Institution :
United Microelectron. Corp., Ltd., Singapore, Singapore
fDate :
June 29 2015-July 2 2015
Abstract :
Scaling of TEM specimen thickness is vital to avoid overlapped semiconductor device structures due to the shrinking of device geometry and to obtain good high-resolution TEM images. Nevertheless, thinner TEM specimen fabricated by conventional ex-situ lift-out technique is often impeded by amorphization and warping effect. The problems can be resolved by in-situ lift-out technique coupled with lower accelerating energy of FIB but the bottlenecks remain to be solved by conventional ex-situ lift-out methodology. An ex-situ lift-out technique has been developed to prepare thin TEM lamella without warping. The specimens prepared by the so-called single and double holder-tilt method are warping free. It can be coupled with lower FIB voltage for ultrathin lamella fabrication.
Keywords :
focused ion beam technology; semiconductor device manufacture; transmission electron microscopy; FIB tilting method; TEM specimen thickness scaling; amorphization; device geometry shrinking; double holder-tilt method; ex-situ lift-out technique; high-resolution TEM images; in-situ lift-out technique coupled; overlapped semiconductor device structures; single holder-tilt method; thin TEM lamella preparation; ultrathin lamella fabrication; warping effect; Acceleration; Fabrication; Failure analysis; Ion beams; Metals; Milling; Semiconductor devices;
Conference_Titel :
Physical and Failure Analysis of Integrated Circuits (IPFA), 2015 IEEE 22nd International Symposium on the
Conference_Location :
Hsinchu
DOI :
10.1109/IPFA.2015.7224349
