Add to ORKGWe present a method to deposit a wide range of radioactive probe atoms on surfaces, without introducing lattice damage or contaminating the surface with other elements or isotopes. In this method, the probe atoms are mass-separated using an isotope separa-tor, decelerated to 5 eV, and directly deposited on the surface. The method allows for performing hyperfine interactions experiments using trace amounts of radioactive probes located at surfaces and interfaces. The characteristics of the deposition method will be described, with particular attention to the deceleration stage of the isotope separator. The method was tested with perturbed angular correlation (PAC) experiments on the system In on Cu(17,1,1). The results are in agreement with ...
Taking advantage of nuclear spins for electronic structure analysis, magnetic resonance imaging, and...
There are many aspects of materials surface processing ranging from simple heat treatments to ion im...
In this paper we review materials characterization techniques using radioactive isotopes at the ISOL...
We present a method to deposit a wide range of radioactive probe atoms on surfaces, without introduc...
We present a method to deposit a wide range of radioactive probe atoms on surfaces, without introduc...
We present a method to deposit a wide range of radioactive probe atoms on surfaces, without introduc...
In this paper we give a short introduction to the Perturbed Angular Correlation technique and presen...
Hyperfine interactions observed at isomeric states of radioactive probe nuclei are used as a tool fo...
Recent applications of the perturbed γγ-angular correlation (PAC) technique to free surfaces and int...
For a program of surface and interface experiments with the PAC isotope 100Pd, a procedure has been ...
We present an experimental setup for the investigation of the processes occurring during the deposit...
Applications of hyperfine-interaction techniques, like NMR, PAC and Mößbauer spectroscopy, to well-c...
Preparative mass spectrometry is a gas-phase ion deposition technique aimed at deposition of monodis...
In hyperfine probe atoms with a concentration of about 10−4 ML have been utilized as nuclear observe...
The diffusion behaviour of indium atoms on various vicinal silver and copper surfaces has been inves...
Taking advantage of nuclear spins for electronic structure analysis, magnetic resonance imaging, and...
There are many aspects of materials surface processing ranging from simple heat treatments to ion im...
In this paper we review materials characterization techniques using radioactive isotopes at the ISOL...
We present a method to deposit a wide range of radioactive probe atoms on surfaces, without introduc...
We present a method to deposit a wide range of radioactive probe atoms on surfaces, without introduc...
We present a method to deposit a wide range of radioactive probe atoms on surfaces, without introduc...
In this paper we give a short introduction to the Perturbed Angular Correlation technique and presen...
Hyperfine interactions observed at isomeric states of radioactive probe nuclei are used as a tool fo...
Recent applications of the perturbed γγ-angular correlation (PAC) technique to free surfaces and int...
For a program of surface and interface experiments with the PAC isotope 100Pd, a procedure has been ...
We present an experimental setup for the investigation of the processes occurring during the deposit...
Applications of hyperfine-interaction techniques, like NMR, PAC and Mößbauer spectroscopy, to well-c...
Preparative mass spectrometry is a gas-phase ion deposition technique aimed at deposition of monodis...
In hyperfine probe atoms with a concentration of about 10−4 ML have been utilized as nuclear observe...
The diffusion behaviour of indium atoms on various vicinal silver and copper surfaces has been inves...
Taking advantage of nuclear spins for electronic structure analysis, magnetic resonance imaging, and...
There are many aspects of materials surface processing ranging from simple heat treatments to ion im...
In this paper we review materials characterization techniques using radioactive isotopes at the ISOL...