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surface:leed_moke_machine [2009-03-02 13:27]
127.0.0.1 external edit
surface:leed_moke_machine [2010-05-04 20:24] (current)
Michael Schmid updated
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====== The LEED & MOKE machine ====== ====== The LEED & MOKE machine ======
-Having its roots in the 1980ies, this ultrahigh-vacuum (UHV) machine has seen many generations of students doing work in widely varying fields, e.g. photoemission in the early days, low-energy ion scattering (LEIS), quantitative low-energy electron diffraction (LEED) and magneto-optic Kerr effect (MOKE) measurements of surface magnetism; the latter available in the recent years.+Having its roots in the early 1980ies, this ultrahigh-vacuum (UHV) machine has seen many generations of students doing work in widely varying fields, e.g. photoemission in the early days, low-energy ion scattering (LEIS), quantitative low-energy electron diffraction (LEED) and magneto-optic Kerr effect (MOKE) measurements of surface magnetism; the latter available in the recent years. The system has seen a major renewal in 2009, with a new chamber, ion source, residual gas analyzer and much more.
-The mu-metal UHV chamber houses a sample manipulator with heating and cooling (≈100 ... 1000 K), two ion sources (for sputtering and LEIS), a small rotatable hemispherical analyzer for LEIS with different scattering geometry, a hemispherical analyzer with concentric electron source for AES and LEED optics. The MOKE setup uses atmospheric-side coils with yokes reaching into the vacuum chamber, reaching a maximum field of ≈ 0.1 T in the 3-cm gap. Kerr rotation and ellipticity of the HeNe laser beam reflected on the sample are measured with a modulation technique, using a photoelastic modulator+The mu-metal UHV chamber houses a sample manipulator with heating and cooling (100 ... 1000 K; down to 50 K with liquid helium cooling), two ion sources (for sputtering and LEIS), a small rotatable hemispherical analyzer for LEIS with different scattering geometry, a hemispherical analyzer with concentric electron source for AES and LEED optics. The MOKE setup uses atmospheric-side coils with yokes reaching into the vacuum chamber, reaching a maximum field of ≈ 0.1 T in the 3-cm gap. Kerr rotation and ellipticity of the HeNe laser beam reflected on the sample are measured with a modulation technique, using a photoelastic modulator.
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-A major renewal of this UHV system is currently under way (2009).+
{{:surface:leed-moke.jpg?nolink|The LEED/MOKE machine}} {{:surface:leed-moke.jpg?nolink|The LEED/MOKE machine}}
surface/leed_moke_machine.txt · Last modified: 2010-05-04 20:24 by Michael Schmid