Abstract
A new surface structure determination approach, called either photoelectron or Auger electron holography depending on the process under consideration, to get three-dimensional images of the close vicinity of a given near-surface atom emitter, has recently been developed. The great advantage of this holographic method lies in the knowledge of the reference wave, a point which is not shared by structure determination approaches using an external beam of particles, such as e.g. x-ray and neutron diffractions, where the reference wave is lost into some direction which is not observed, and the experimenter is therefore faced with the so-called `phase problem`. 28 refs, 2 figs.
Fonda, L
[1]
- Trieste Univ. (Italy). Ist. di Fisica Teorica
Citation Formats
Fonda, L.
Theoretical aspects of electron emission holography.
IAEA: N. p.,
1994.
Web.
Fonda, L.
Theoretical aspects of electron emission holography.
IAEA.
Fonda, L.
1994.
"Theoretical aspects of electron emission holography."
IAEA.
@misc{etde_10112958,
title = {Theoretical aspects of electron emission holography}
author = {Fonda, L}
abstractNote = {A new surface structure determination approach, called either photoelectron or Auger electron holography depending on the process under consideration, to get three-dimensional images of the close vicinity of a given near-surface atom emitter, has recently been developed. The great advantage of this holographic method lies in the knowledge of the reference wave, a point which is not shared by structure determination approaches using an external beam of particles, such as e.g. x-ray and neutron diffractions, where the reference wave is lost into some direction which is not observed, and the experimenter is therefore faced with the so-called `phase problem`. 28 refs, 2 figs.}
place = {IAEA}
year = {1994}
month = {Nov}
}
title = {Theoretical aspects of electron emission holography}
author = {Fonda, L}
abstractNote = {A new surface structure determination approach, called either photoelectron or Auger electron holography depending on the process under consideration, to get three-dimensional images of the close vicinity of a given near-surface atom emitter, has recently been developed. The great advantage of this holographic method lies in the knowledge of the reference wave, a point which is not shared by structure determination approaches using an external beam of particles, such as e.g. x-ray and neutron diffractions, where the reference wave is lost into some direction which is not observed, and the experimenter is therefore faced with the so-called `phase problem`. 28 refs, 2 figs.}
place = {IAEA}
year = {1994}
month = {Nov}
}