|Sep 24, 2019|
Researchers can now place single ions into solids(Nanowerk News) Modern electronics is based on doped semiconductors. To synthesize electronic components, dopant atoms such as aluminum or phosphorus are embedded into crystals of ultrapure silicon. This allows for tailoring semiconductor conductivity according to the desired application.
|In modern electronic computer processors, miniaturized to just a few nanometers, only less than ten dopant atoms are relevant for the functionality. Quantum components, which are used for novel quantum computers or quantum simulators, will go even one step further in that they require an array with only single dopant atoms in a high-purity crystal.|
|Physicists at Johannes Gutenberg University Mainz (JGU) led by Professor Ferdinand Schmidt-Kaler now have developed a method to implant precise numbers of individual dopant ions into a solid crystal.|
|Schematic representation of the ion trap (left) as the source of an ion beam to write a specific array of color centers into a crystal (right). (Image: QUANTUM, Institute of Physics, JGU)|
|Their technique implants the rare earth element praseodymium into an yttrium-aluminum garnet crystal. These crystals were subsequently examined under a high-resolution confocal microscope in collaboration with a team of researchers headed by Professor Jörg Wrachtrup at the University of Stuttgart.|
|They determined a positioning accuracy of 35 nanometers. In principle, this accuracy is already sufficient to implant arrays of dopant ions into components for future quantum processors.|
|The research results were published as a highlight in the international journal Physical Review Letters ("Deterministic Single-Ion Implantation of Rare-Earth Ions for Nanometer-Resolution Color-Center Generation") and represent an important innovation with a wide potential for applications, as the method can be extended to other crystals and dopant atoms.|
|Source: Johannes Gutenberg-Universität Mainz|
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