Physics and Technology of Semiconductor Quantum Nanostructures
Lead Research Organisation:
University of Cambridge
Department Name: Physics
Abstract
We are accustomed to the use of electricity in every day life, this is based on the flow of electrons through materials which have a high conductivity such as metals. At low temperatures the laws of quantum mechanics prevail and now an electron does not behave as a particle but rather as a wave, which reflects the probability of finding an electron in a particular place. An entirely new range of phenomena flow from this change in the physics and this is most pronounced in very small devices, called nanostructures. The purpose of this grant is to enable the most advanced nanostructures to be fabricated and new physical phenomena to be sought in them. In addition to the new physics that will be found, new methods of transmitting and handling data will emerge, which will be of great benefit to both existing and future industries yet to be born.
Publications
Wright S
(2009)
Parallel quantized charge pumping
in Physical Review B
Goswami S
(2009)
Highly enhanced thermopower in two-dimensional electron systems at millikelvin temperatures.
in Physical review letters
Hew WK
(2009)
Incipient formation of an electron lattice in a weakly confined quantum wire.
in Physical review letters
Croxall A
(2009)
Possible effect of collective modes in zero magnetic field transport in an electron-hole bilayer
in Physical Review B
Chen T
(2009)
Odd-even spin effects and variation of g factor in a quasi-one-dimensional subband
in Physical Review B
Chen T
(2009)
Non-Kondo zero-bias anomaly in quantum wires
in Physical Review B
Smith L
(2009)
Row coupling in an interacting quasi-one-dimensional quantum wire investigated using transport measurements
in Physical Review B
Kataoka M
(2009)
Coherent time evolution of a single-electron wave function.
in Physical review letters
Sarkozy S
(2009)
Zero-bias anomaly in quantum wires
in Physical Review B
Córcoles A
(2009)
Nuclear spin coherence in a quantum wire
in Physical Review B
Description | The work discovered a number of unexpected features of spin polarisation and difference in energy between the different spin directions. It was found possible to induce a coincidence in energy between the spin directions by means of a magnetic field which produced a number of spin instabilities. We developed an electron pump which delivered a quantised current near nanoamps which is within range of highly accurate measurements of electron charge by standards laboratories. |
Exploitation Route | Many groups worldwide are using the patterned gate techniques which we developed. The electron pump has been taken up by standards laboratories including NPL with whom we have a good collaboration. |
Sectors | Digital/Communication/Information Technologies (including Software),Electronics,Energy |
URL | http://www.electronicsweekly.com/news/research-news/device-rd/cambridge-team-closer-to-working-quantum-computer-2007-04/ |
Description | Theory of Electron Transport in Semiconductor Nanostructures and Collaborative Experiments |
Organisation | University of Liverpool |
Department | Department of Physics |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Collaboration and explanation of experiments as well as suggestions of new experiments. These collaborations started before this award but are ongoing and have contributed to the work in the award. |
Collaborator Contribution | Many ideas and experimental contributions. Allocation of a Dilution Refrigerator in Cape Town for the experimental programme. Dr Blumenthal who is now in CapeTown took a Ph.D in Cambridge and was supervised by Pepper, he is now a lecturer there and has allocated a dilution refrigerator to our collaboration on electron pumps. We have an excellent collaboration with the Taiwan group which has provided new insights into spin-orbit coupling. The Bar Ilan and CUNY collaborations are in the area of theory and have produced some important insights into the behaviour of electrons in nanostructures which is continuing. |
Impact | 4 good publications |
Description | Theory of Electron Transport in Semiconductor Nanostructures and Collaborative Experiments |
Organisation | University of Liverpool |
Department | Department of Physics |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Collaboration and explanation of experiments as well as suggestions of new experiments. These collaborations started before this award but are ongoing and have contributed to the work in the award. |
Collaborator Contribution | Many ideas and experimental contributions. Allocation of a Dilution Refrigerator in Cape Town for the experimental programme. Dr Blumenthal who is now in CapeTown took a Ph.D in Cambridge and was supervised by Pepper, he is now a lecturer there and has allocated a dilution refrigerator to our collaboration on electron pumps. We have an excellent collaboration with the Taiwan group which has provided new insights into spin-orbit coupling. The Bar Ilan and CUNY collaborations are in the area of theory and have produced some important insights into the behaviour of electrons in nanostructures which is continuing. |
Impact | 4 good publications |
Description | Theory of Electron Transport in Semiconductor Nanostructures and Collaborative Experiments |
Organisation | University of the Balearic Islands |
Department | Physics |
Country | Spain |
Sector | Academic/University |
PI Contribution | Collaboration and explanation of experiments as well as suggestions of new experiments. These collaborations started before this award but are ongoing and have contributed to the work in the award. |
Collaborator Contribution | Many ideas and experimental contributions. Allocation of a Dilution Refrigerator in Cape Town for the experimental programme. Dr Blumenthal who is now in CapeTown took a Ph.D in Cambridge and was supervised by Pepper, he is now a lecturer there and has allocated a dilution refrigerator to our collaboration on electron pumps. We have an excellent collaboration with the Taiwan group which has provided new insights into spin-orbit coupling. The Bar Ilan and CUNY collaborations are in the area of theory and have produced some important insights into the behaviour of electrons in nanostructures which is continuing. |
Impact | 4 good publications |
Description | Theory of Electron Transport in Semiconductor Nanostructures and Collaborative Experiments |
Organisation | University of the Balearic Islands |
Department | Physics |
Country | Spain |
Sector | Academic/University |
PI Contribution | Collaboration and explanation of experiments as well as suggestions of new experiments. These collaborations started before this award but are ongoing and have contributed to the work in the award. |
Collaborator Contribution | Many ideas and experimental contributions. Allocation of a Dilution Refrigerator in Cape Town for the experimental programme. Dr Blumenthal who is now in CapeTown took a Ph.D in Cambridge and was supervised by Pepper, he is now a lecturer there and has allocated a dilution refrigerator to our collaboration on electron pumps. We have an excellent collaboration with the Taiwan group which has provided new insights into spin-orbit coupling. The Bar Ilan and CUNY collaborations are in the area of theory and have produced some important insights into the behaviour of electrons in nanostructures which is continuing. |
Impact | 4 good publications |