S. B. McLane scite author profile

A serious limitation of the field ion microscope has been its inability to identify the chemical nature of the individually imaged atoms. The newly conceived atom-probe FIM is a combination probe-hole FIM and mass spectrometer having single particle sensitivity. During observation, the observer selects an atomic site of interest by placing it over a probe hole in the image screen. Pulsed field evaporation sends the chosen particle through the hole and into the spectrometer section. Preliminary results show that field evaporation of tungsten under poor vacuum conditions occurs as triply or quadruply charged WO, WN, WO2, and WN2 ions, while under better conditions doubly and possibly triply charged tungsten can be observed. Mo–Re alloys always produced doubly charged molybdenum and rhenium ions when examined in the atom-probe. Wide applications for the study of short range order in alloys, the chemical nature of precipitates and impurity atoms, and information regarding the imaging properties of various atom species, of both the substrate and adsorbed material, are foreseen.

show abstract

Surface segregation of a Pt–Au alloy: An atom-probe field ion microscope investigation

Tsong

McLane

1980

View full text Add to dashboard Cite

show abstract

Pulsed-laser time-of-flight atom-probe field ion microscope

1982

View full text Add to dashboard Cite

show abstract

Gas-Surface Interactions and Field-Ion Microscopy of Nonrefractory Metals

et al. 1965

View full text Add to dashboard Cite

The performance of the helium field-ion microscope depends critically upon accommodating He atoms of 0.15-eV kinetic energy to the specimen tip. The small accommodation coefficient requires the field-trapped He atom to make several hundred contacts with the cold tip surface. The hopping He atoms diffuse preferentially to tip regions where the high local field permits ionization before full accommodation is reached. Improved accommodation is achieved with the provision of an intermediate collision partner in the form of adsorbed neon or, preferably, hydrogen or deuterium. Now a high-resolution He ion image is obtained at 70% of the field used before. As the addition of hydrogen promotes field evaporation, its partial pressure must be carefully controlled to achieve image stability of the nonrefractory metals. Low-field evaporation by the hydrogen reaction permits easy conditioning of the tip surface of the nonrefractory transition metals so that artifacts caused by yielding to He evaporation field stress are no longer a problem. The field evaporation end form obtained with hydrogen added to He more closely approaches the desirable spherical shape of the emitter than does field evaporation in vacuum or in a single imaging gas. As examples, ion images of niobium, nickel, iron, and high carbon steel are shown.

show abstract

Calibration of the Atom Probe FIM

Panitz

McLane

Müller

1969

View full text Add to dashboard Cite

Accurate identification of atomic species in the atom probe FIM requires a highly shielded tip assembly, as well as a revision of the equation formerly used to compute the m/n ratios. Voltage reflections on the unterminated pulse transmission line cause the actual evaporation pulse at the tip to be greater than the applied pulse by a ``pulse factor'' α. In addition, the recorded flight time of the ion under investigation differs from the actual flight time by a constant electronic time delay δ. Using either of two single isotope calibration techniques, both α and δ can be determined. For a shielded tip assembly either technique gives a value of α=2.00±0.05 and a value of δ=0.06±0.02 μsec. Typical absolute mass determination using these values of α and δ is within ±0.6 amu at m/n=20, and ±1.6 amu at m/n=100. When masses near a known species, like hydrogen- or helium-metal molecular ions, are to be detected, the practical resolution reaches ±0.2 amu at the middle of the mass range.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

S. B. McLane

The Atom-Probe Field Ion Microscope

Surface segregation of a Pt–Au alloy: An atom-probe field ion microscope investigation

Pulsed-laser time-of-flight atom-probe field ion microscope

Gas-Surface Interactions and Field-Ion Microscopy of Nonrefractory Metals

Calibration of the Atom Probe FIM

Contact Info

Product

Resources

About