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# People
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* [Ben Thorpe](https://www.supercomputing.wales/team/ben-thorpe/), [Physics](https://www.swansea.ac.uk/physics), [Swansea University](https://www.swansea.ac.uk/); [Supercomputing Wales](https://www.supercomputing.wales/)
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* [Karol Kalna](https://www.swansea.ac.uk/staff/engineering/kalna-k/), [College of Engineering](https://www.swansea.ac.uk/engineering/), [Swansea University](https://www.swansea.ac.uk/)
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* [Sophie Shermer](https://qyber.black/lw1660), [Physics](https://www.swansea.ac.uk/physics), [Swansea University](https://www.swansea.ac.uk/)
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* [Frank C Langbein](https://qyber.black/xis10z), [School of Computer Science and Informatics](https://www.cardiff.ac.uk/computer-science), [Cardiff University](https://www.cardiff.ac.uk/); [langbein.org](https://langbein.org/)
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* [Jon E Evans](https://orcid.org/0000-0002-6511-4215), [Center for Nanohealth](https://www.swansea.ac.uk/nanohealth/), [Swansea University](https://www.swansea.ac.uk/)
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* [Gregory Burwell](https://www.swansea.ac.uk/staff/science/physics/burwell-g/), [Physics](https://www.swansea.ac.uk/physics), [Swansea University](https://www.swansea.ac.uk/)
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* [**Ben Thorpe**](https://www.supercomputing.wales/team/ben-thorpe/), [Physics](https://www.swansea.ac.uk/physics), [Swansea University](https://www.swansea.ac.uk/); [Supercomputing Wales](https://www.supercomputing.wales/)
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* [**Karol Kalna**](https://www.swansea.ac.uk/staff/engineering/kalna-k/), [College of Engineering](https://www.swansea.ac.uk/engineering/), [Swansea University](https://www.swansea.ac.uk/)
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* [**Sophie Shermer**](https://qyber.black/lw1660), [Physics](https://www.swansea.ac.uk/physics), [Swansea University](https://www.swansea.ac.uk/)
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* [**Frank C Langbein**](https://qyber.black/xis10z), [School of Computer Science and Informatics](https://www.cardiff.ac.uk/computer-science), [Cardiff University](https://www.cardiff.ac.uk/); [langbein.org](https://langbein.org/)
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* [**Jon E Evans**](https://orcid.org/0000-0002-6511-4215), [Center for Nanohealth](https://www.swansea.ac.uk/nanohealth/), [Swansea University](https://www.swansea.ac.uk/)
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* [**Gregory Burwell**](https://www.swansea.ac.uk/staff/science/physics/burwell-g/), [Physics](https://www.swansea.ac.uk/physics), [Swansea University](https://www.swansea.ac.uk/)
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# Publications
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* JE Evans, G Burwell, FC Langbein, SG Shermer, K Kalna. **Dilute Magnetic Contact for a Spin GaN HEMT.** In: _Semiconductor and Integrated OptoElectronics Conference (SIOE) Conference_, Cardiff, 16-18 April, 2019. [[PDF](uploads/c0caf27df7122e4c1715ee82b5c44a7f/2019-SIOE.pdf)]
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* B Thorpe, K Kalna, FC Langbein, SG Schirmer. **Spin Recovery in the 25nm Gate Length InGaAs Field Effect Transistor.** In: _Proc. Int. Workshop on Computational Nanotechnology_, pp. 168-169, Windermere, UK, 6-9 June, 2017. [[PDF](uploads/83fda9159631671a11312fb9afd0b052/2017-IWCN-Abstract.pdf)]
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* B Thorpe, K Kalna, FC Langbein, SG Schirmer. **Monte Carlo Simulations of Spin Transport in Nanoscale InGaAs Field Effect Transistors.** _J Applied Physics_, **122**, 223903, 2017. [[Details](Monte-Carlo-Simulations-of-Spin-Transport-in-Nanoscale-InGaAs-Field-Effect-Transistors)] [[PDF](https://d.qyber.black/paper/quantum-spintronics-paper-ingaas-spin-transport/paper.pdf)]
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* **B Thorpe**, FC Langbein, SG Schirmer, K Kalna. **Temperature Affected Non-Equilibrium Spin Transport in Nanoscale In0.3Ga0.7As Transistors.** _20th Int. Workshop on Computational Nanotechnology (IWCN)_, 20-24th May, 2019.
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[[PDF:abstract](uploads/1ced1e3f0fd95b221562a76eee9028e8/2019-IWCN.pdf)]
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# PhDs
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* JE Evans, G Burwell, FC Langbein, SG Shermer, K Kalna. **Dilute Magnetic Contact for a Spin GaN HEMT.** In: _Semiconductor and Integrated OptoElectronics Conference (SIOE) Conference_, Cardiff, 16-18th April, 2019.
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[[PDF:abstract](uploads/c0caf27df7122e4c1715ee82b5c44a7f/2019-SIOE.pdf)]
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* **FC Langbein**, SG Shermer, K Kalna, J Evans, G Burwell. **Dilute Magnetic Semiconductors for Spintronics: Mn:GaN.** _Cardiff Materials Research Network Conference_, 17-18th January, 2019.
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[[PDF:abstract(uploads/6cf16ee27f27a2e8d9aa3c9ebf5f5480/2019-CMRN-Abstract.pdf)]
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[[PDF:poster](uploads/8e64343b443374b1f68f604da0646a7c/2019-CMRN-poster.pdf)]
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[[PDF:slides](uploads/ef5b4474380b7b9b4992b5b19c5013c4/2019-CMRN-talk_enc.pdf)]
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* B Thorpe. **Monte Carlo Simulations of Spin Transport in Semiconductor Devices.** PhD thesis, 2019. [[PDF](uploads/314d6f64073b0a0725e4591d83dacd08/2019-BThorpe-PhD.pdf)]
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* **B Thorpe**, SG Schirmer, K Kalna, FC Langbein. **Monte Carlo Simulations of Spin Transport in an InGaAs Field Effect Transistor.** _34th Int. Conf. Physics of Semiconductors (ICPS2018)_, Poster P3_176, 29th July to 3rd August 2018.
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[[PDF:abstract](uploads/8e04b128e1f7a1ebec5f8a08d4ee35a5/2018-ICPS.pdf")]
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# Presentations
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* B Thorpe, K Kalna, FC Langbein, SG Schirmer. **Spin Recovery in the 25nm Gate Length InGaAs Field Effect Transistor.** In: _Proc. Int. Workshop on Computational Nanotechnology_, pp. 168-169, Windermere, UK, 6-9th June, 2017.
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[[PDF:abstract](uploads/83fda9159631671a11312fb9afd0b052/2017-IWCN-Abstract.pdf)]
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[[PDF:poster](uploads/cbfb1828589e5588d4d36c0db9f9d9d8/2017-IWCN-Poster.pdf)]
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* **B Thorpe**, FC Langbein, SG Schirmer, K Kalna. **Temperature Affected Non-Equilibrium Spin Transport in Nanoscale In0.3Ga0.7As Transistors.** _20th Int. Workshop on Computational Nanotechnology (IWCN)_, 20-24th May, 2019. [[PDF](uploads/1ced1e3f0fd95b221562a76eee9028e8/2019-IWCN.pdf)]
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* **FC Langbein**, SG Shermer, K Kalna, J Evans, G Burwell. **Dilute Magnetic Semiconductors for Spintronics: Mn:GaN.** _Cardiff Materials Research Network Conference_, 17-18th January, 2019. [[PDF-Poster](uploads/8e64343b443374b1f68f604da0646a7c/2019-CMRN-poster.pdf)] [[PDF-Talk](uploads/ef5b4474380b7b9b4992b5b19c5013c4/2019-CMRN-talk_enc.pdf)]
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* **B Thorpe**, SG Schirmer, K Kalna, FC Langbein. **Monte Carlo Simulations of Spin Transport in an InGaAs Field Effect Transistor.** _34th Int. Conf. Physics of Semiconductors (ICPS2018)_, Poster P3_176, 29th July to 3rd August 2018. [[PDF](uploads/8e04b128e1f7a1ebec5f8a08d4ee35a5/2018-ICPS.pdf)]
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* **B Thorpe**, SG Schirmer, K Kalna, FC Langbein. **Monte Carlo simulation of Spin Transport and Recovery in a 25 nm gate length InGaAs Field Effect Transistor.** _European Materials Research Society 2017 Fall Meeting_, Symposium F: Spintronics in semiconductors, 2D materials and topological insulators, F.FP.7, 2017. [[Details](Monte-Carlo-simulation-of-Spin-Transport-and-Recovery-in-a-25-nm-gate-length-InGaAs-Field-Effect-Transistor)]
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* **B Thorpe**, K Kalna, FC Langbein, SG Schirmer. **Spin Recovery in the 25nm Gate Length InGaAs Field Effect Transistor.** _Int. Workshop on Computational Nanotechnology_, pp. 168-169, Windermere, UK, 6-9 June, 2017.
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[[PDF](uploads/cbfb1828589e5588d4d36c0db9f9d9d8/2017-IWCN-Poster.pdf)]
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* B Thorpe, K Kalna, FC Langbein, SG Schirmer. **Monte Carlo Simulations of Spin Transport in Nanoscale InGaAs Field Effect Transistors.** _J Applied Physics_, **122**, 223903, 2017.
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[[DOI:10.1063/1.4994148](https://doi.org/10.1063/1.4994148)]
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[[PDF:paper](https://d.qyber.black/paper/quantum-spintronics-paper-ingaas-spin-transport/paper.pdf)]
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[[Details](Monte-Carlo-Simulations-of-Spin-Transport-in-Nanoscale-InGaAs-Field-Effect-Transistors)]
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* **B Thorpe**, SG Schirmer, K Kalna, FC Langbein. **Monte Carlo simulation of Spin Transport and Recovery in a 25 nm gate length InGaAs Field Effect Transistor.** _European Materials Research Society 2017 Fall Meeting_, Symposium F: Spintronics in semiconductors, 2D materials and topological insulators, F.FP.7, 2017.
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[[Details](Monte-Carlo-simulation-of-Spin-Transport-and-Recovery-in-a-25-nm-gate-length-InGaAs-Field-Effect-Transistor)]
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# PhDs
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* B Thorpe. **Monte Carlo Simulations of Spin Transport in Semiconductor Devices.** PhD thesis, 2019.
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[[PDF:dissertation](uploads/314d6f64073b0a0725e4591d83dacd08/2019-BThorpe-PhD.pdf)]
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# Code
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... | ... | @@ -37,6 +51,7 @@ We developed simulation code able to model Dresselhaus and Rashba effects due to |
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# Funding
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* January 2015 - December 2017: **Data-Driven Simulation of Quantum Spin Network Devices.** PI: F. C. Langbein with S. G. Schirmer (Swansea University), K. Kalna (Swansea University), A. Martinez (Swansea University), D. Burgarth (Aberystwyth University). NRN82. £120K. [[Details](Data-Driven-Simulation-of-Quantum-Spin-Network-Devices)]
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* 2018, 6 months: **Feasibility Study: Spin Injection Into Dilute Magnetic Gallium Nitride Transistors**, K. Kalna (Swansea University). £50K. [[https://compoundsemiconductorhub.org/wp-content/uploads/2018/09/Hub_Newsletter_201809.pdf](https://compoundsemiconductorhub.org/wp-content/uploads/2018/09/Hub_Newsletter_201809.pdf)]
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# License
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