The Correlation between Ion Beam/Material Interactions and Practical FIB Specimen Preparation

B.I. Prenitzer; C.A. Urbanik-Shannon; L.A. Giannuzzi; S.R. Brown; R.B. Irwin; T.L. Shofner; F.A. Stevie

doi:10.1017/S1431927603030034

Abstract

The focused ion beam (FIB) tool has been successfully used as both a stand alone analytical instrument and a means to prepare specimens for subsequent analysis by SEM, TEM, SIMS, XPS, and AUGER. In this work, special emphasis is given to TEM specimen preparation by the FIB lift-out technique. The fundamental ion/solid interactions that govern the FIB milling process are examined and discussed with respect to the preparation of electron transparent membranes. TRIM, a Monte Carlo simulation code, is used to physically model variables that influence FIB sputtering behavior. The results of such computer generated models are compared with empirical observations in a number of materials processed with an FEI 611 FIB workstation. The roles of incident ion attack angle, beam current, trench geometry, raster pattern, and target-material-dependent removal rates are considered. These interrelationships are used to explain observed phenomena and predict expected milling behaviors, thus increasing the potential for the FIB to be used more efficiently with reproducible results.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Thompson, G.B Miller, M.K and Fraser, H.L 2004. Some aspects of atom probe specimen preparation and analysis of thin film materials. Ultramicroscopy, Vol. 100, Issue. 1-2, p. 25.

Rubanov, S. and Munroe, P.R. 2005. Damage in III–V Compounds during Focused Ion Beam Milling. Microscopy and Microanalysis, Vol. 11, Issue. 5, p. 446.

Uchic, Michael D. and Dimiduk, Dennis M. 2005. A methodology to investigate size scale effects in crystalline plasticity using uniaxial compression testing. Materials Science and Engineering: A, Vol. 400-401, Issue. , p. 268.

Giannuzzi, L. A. Kempshall, B. W. Schwarz, S. M. Lomness, J. K. Prenitzer, B. I. and Stevie, F. A. 2005. Introduction to Focused Ion Beams. p. 201.

Van Leer, Brandon Giannuzzi, Lucille A. and Anzalone, Paul 2006. Scanning Microscopy for Nanotechnology. p. 225.

Ross, I M Ng, W H Wilson, L R Luxmoore, I J Cockburn, J W Krysa, A Cullis, A G and Roberts, J S 2006. Fabrication of novel quantum cascade lasers using focused ion beam (FIB) processing. Journal of Physics: Conference Series, Vol. 26, Issue. , p. 215.

Tham, D. Nam, C.‐Y. and Fischer, J. E. 2006. Microstructure and Composition of Focused‐Ion‐Beam‐Deposited Pt Contacts to GaN Nanowires. Advanced Materials, Vol. 18, Issue. 3, p. 290.

Kiener, D. Motz, C. Rester, M. Jenko, M. and Dehm, G. 2007. FIB damage of Cu and possible consequences for miniaturized mechanical tests. Materials Science and Engineering: A, Vol. 459, Issue. 1-2, p. 262.

Li, L. Kharas, B. Zhang, H. and Sampath, S. 2007. Suppression of crystallization during high velocity impact quenching of alumina droplets: Observations and characterization. Materials Science and Engineering: A, Vol. 456, Issue. 1-2, p. 35.

Thompson, K. Lawrence, D. Larson, D.J. Olson, J.D. Kelly, T.F. and Gorman, B. 2007. In situ site-specific specimen preparation for atom probe tomography. Ultramicroscopy, Vol. 107, Issue. 2-3, p. 131.

Hopman, Wico C L Ay, Feridun Hu, Wenbin Gadgil, Vishwas J Kuipers, Laurens Pollnau, Markus and Ridder, René M de 2007. Focused ion beam scan routine, dwell time and dose optimizations for submicrometre period planar photonic crystal components and stamps in silicon. Nanotechnology, Vol. 18, Issue. 19, p. 195305.

Cavalazzi, Barbara 2007. Chemotrophic Filamentous Microfossils from the Hollard Mound (Devonian, Morocco) as Investigated by Focused Ion Beam. Astrobiology, Vol. 7, Issue. 2, p. 402.

Cullen, David A. and Smith, David J. 2008. Assessment of surface damage and sidewall implantation in AlGaN-based high electron mobility transistor devices caused during focused-ion-beam milling. Journal of Applied Physics, Vol. 104, Issue. 9,

Dora, Sujit Kumar and Magnussen, Olaf 2008. In Situ STM Study of TaS[sub 2] Electrode Processes in Pyridine and Octylamine Solutions. Journal of The Electrochemical Society, Vol. 155, Issue. 6, p. F132.

Wilhelmi, Oliver Reyntjens, Steve Mitterbauer, Christoph Roussel, Laurent Stokes, Debbie J. and Hubert, Dominique H. W. 2008. Rapid Prototyping of Nanostructured Materials with a Focused Ion Beam. Japanese Journal of Applied Physics, Vol. 47, Issue. 6S, p. 5010.

2008. Polymer Microscopy. p. 130.

Moran, Jeffrey L. Wheat, Philip M. and Posner, Jonathan D. 2008. Submicron Scale Patterning in Sintered Silica Colloidal Crystal Films Using a Focused Ion Beam. Langmuir, Vol. 24, Issue. 18, p. 10532.

Dora, Sujit Kumar Bai, Yinxiang Elbahri, Mady Kunz, Rainer Adelung, Rainer and Magnussen, Olaf 2008. Nanotunnel Formation Induced by Cu Electrodeposition on 1T-TaS[sub 2]. Journal of The Electrochemical Society, Vol. 155, Issue. 10, p. D666.

Lekstrom, M McLachlan, M A Husain, S McComb, D W and Shollock, B A 2008. Using the in situ lift-out technique to prepare TEM specimens on a single-beam FIB instrument. Journal of Physics: Conference Series, Vol. 126, Issue. , p. 012028.

PAQUE, J. M. BECKETT, J. R. ISHII, H. A. ALÉON‐TOPPANI, A. BURNETT, D. S. TESLICH, N. DAI, Z. R. and BRADLEY, J. P. 2009. The formation of boundary clinopyroxenes and associated glass veins in type B1 CAIs. Meteoritics & Planetary Science, Vol. 44, Issue. 5, p. 665.

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The Correlation between Ion Beam/Material Interactions and Practical FIB Specimen Preparation

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