Surface alloy formation of fe on cr(100) studied by scanning tunneling microscopy

Y. J. Choi; I. C. Jeong; J. Y. Park; S. J. Kahng; J. Lee; Y. Kuk

doi:10.1103/PhysRevB.59.10918

Surface alloy formation of fe on cr(100) studied by scanning tunneling microscopy

Y. J. Choi, I. C. Jeong, J. Y. Park, S. J. Kahng, J. Lee, Y. Kuk

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Abstract

Surface alloy formation of Fe on a Cr(100) surface was studied using a UHV scanning tunneling microscope. As we deposited Fe of less than 1 ML at room temperature and subsequently annealed the substrate at temperatures between 200 °C and 300 °C, we observed that Fe atoms incorporate into the Cr(100) surface, forming a well-ordered surface alloy of (Formula presented) These two elements were differentiated by imaging at the bias voltages near their surface states. The surface alloying was also confirmed by imaging at the bias voltages of their Shockley image states. By annealing the Fe layer of ∼1 ML at 250 °C, we found that the solubility of Fe into the Cr(100) surface is ∼25% at that temperature. Fe overlayer shows kinetically roughened mound structure at room temperature while it shows equilibrium two-dimensional islands at 300 °C.

Original language	English
Pages (from-to)	10918-10922
Number of pages	5
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	59
Issue number	16
DOIs	https://doi.org/10.1103/PhysRevB.59.10918
Publication status	Published - 1999
Externally published	Yes

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.59.10918

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title = "Surface alloy formation of fe on cr(100) studied by scanning tunneling microscopy",

abstract = "Surface alloy formation of Fe on a Cr(100) surface was studied using a UHV scanning tunneling microscope. As we deposited Fe of less than 1 ML at room temperature and subsequently annealed the substrate at temperatures between 200 °C and 300 °C, we observed that Fe atoms incorporate into the Cr(100) surface, forming a well-ordered surface alloy of (Formula presented) These two elements were differentiated by imaging at the bias voltages near their surface states. The surface alloying was also confirmed by imaging at the bias voltages of their Shockley image states. By annealing the Fe layer of ∼1 ML at 250 °C, we found that the solubility of Fe into the Cr(100) surface is ∼25% at that temperature. Fe overlayer shows kinetically roughened mound structure at room temperature while it shows equilibrium two-dimensional islands at 300 °C.",

author = "Choi, {Y. J.} and Jeong, {I. C.} and Park, {J. Y.} and Kahng, {S. J.} and J. Lee and Y. Kuk",

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TY - JOUR

T1 - Surface alloy formation of fe on cr(100) studied by scanning tunneling microscopy

AU - Choi, Y. J.

AU - Jeong, I. C.

AU - Park, J. Y.

AU - Kahng, S. J.

AU - Lee, J.

AU - Kuk, Y.

PY - 1999

Y1 - 1999

N2 - Surface alloy formation of Fe on a Cr(100) surface was studied using a UHV scanning tunneling microscope. As we deposited Fe of less than 1 ML at room temperature and subsequently annealed the substrate at temperatures between 200 °C and 300 °C, we observed that Fe atoms incorporate into the Cr(100) surface, forming a well-ordered surface alloy of (Formula presented) These two elements were differentiated by imaging at the bias voltages near their surface states. The surface alloying was also confirmed by imaging at the bias voltages of their Shockley image states. By annealing the Fe layer of ∼1 ML at 250 °C, we found that the solubility of Fe into the Cr(100) surface is ∼25% at that temperature. Fe overlayer shows kinetically roughened mound structure at room temperature while it shows equilibrium two-dimensional islands at 300 °C.

AB - Surface alloy formation of Fe on a Cr(100) surface was studied using a UHV scanning tunneling microscope. As we deposited Fe of less than 1 ML at room temperature and subsequently annealed the substrate at temperatures between 200 °C and 300 °C, we observed that Fe atoms incorporate into the Cr(100) surface, forming a well-ordered surface alloy of (Formula presented) These two elements were differentiated by imaging at the bias voltages near their surface states. The surface alloying was also confirmed by imaging at the bias voltages of their Shockley image states. By annealing the Fe layer of ∼1 ML at 250 °C, we found that the solubility of Fe into the Cr(100) surface is ∼25% at that temperature. Fe overlayer shows kinetically roughened mound structure at room temperature while it shows equilibrium two-dimensional islands at 300 °C.

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Surface alloy formation of fe on cr(100) studied by scanning tunneling microscopy

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