... | ... | @@ -58,9 +58,9 @@ 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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* January 2015 - December 2017: **Data-Driven Simulation of Quantum Spin Network Devices.** PI: FC Langbein with SG 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.** PI: 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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* 2018, 6 months: **Feasibility Study: Spin Injection Into Dilute Magnetic Gallium Nitride Transistors.** PI: 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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