Theoretically proposed by Ettore Majorana in 1937, Majorana fermions are a unique class of particles which are their own anti-particles. This concept is realized in Majorana Zero Modes (MZMs), which are quasi-particles bound to zero energy, with no measurable charge and mass. Arising out of topological states of matter, signatures of MZMs were first experimentally observed in 2012. These quasi-particles are predicted to exhibit non-abelian braiding statistics, allowing them to “remember” whether they were moved clockwise or counterclockwise around each other, forming a braid in time and position. Being their own anti-particles, fusion or annihilation of a pair of MZMs is expected to lead to a different outcome based on how they were braided...
Majorana zero modes (MZMs) are exotic excitations (in condensed matter systems) that have potential ...
International audienceA quantum computer has computational power beyond that of conventional compute...
Semiconductor nanowires such as InAs and InSb are promising materials for studying Majorana zero mod...
The dissertation reports a series of electron transport experiments on semiconductor nanowires towar...
Originally proposed in high energy physics as particles, which are their own anti-particles, Majoran...
Quantum computing is a flourishing field of scientific and technological research. The development o...
Majorana zero-energy modes (MZMs), which comprise an equal superposition of electrons and holes, are...
A quantum computer can outperform classical computers for certain tasks. The general challenge to re...
Quantum technology is a promising area of research, with the quantum computer as the prime example. ...
We introduce a scheme for preparation, manipulation, and read out of Majorana zero modes in semicond...
Realizing topological superconductivity and Majorana zero modes in the laboratory is a major goal in...
Semiconductor nanowires such as InAs and InSb are promising materials for studying Majorana zero mod...
We introduce a scheme for preparation, manipulation, and read out of Majorana zero modes in semicond...
Among the major avenues that are being pursued for realizing quantum bits, the Majorana-based approa...
Majorana zero modes (MZMs) are exotic excitations (in condensed matter systems) that have potential ...
International audienceA quantum computer has computational power beyond that of conventional compute...
Semiconductor nanowires such as InAs and InSb are promising materials for studying Majorana zero mod...
The dissertation reports a series of electron transport experiments on semiconductor nanowires towar...
Originally proposed in high energy physics as particles, which are their own anti-particles, Majoran...
Quantum computing is a flourishing field of scientific and technological research. The development o...
Majorana zero-energy modes (MZMs), which comprise an equal superposition of electrons and holes, are...
A quantum computer can outperform classical computers for certain tasks. The general challenge to re...
Quantum technology is a promising area of research, with the quantum computer as the prime example. ...
We introduce a scheme for preparation, manipulation, and read out of Majorana zero modes in semicond...
Realizing topological superconductivity and Majorana zero modes in the laboratory is a major goal in...
Semiconductor nanowires such as InAs and InSb are promising materials for studying Majorana zero mod...
We introduce a scheme for preparation, manipulation, and read out of Majorana zero modes in semicond...
Among the major avenues that are being pursued for realizing quantum bits, the Majorana-based approa...
Majorana zero modes (MZMs) are exotic excitations (in condensed matter systems) that have potential ...
International audienceA quantum computer has computational power beyond that of conventional compute...
Semiconductor nanowires such as InAs and InSb are promising materials for studying Majorana zero mod...