Timothy J. Hele
Affiliations: | University College London, London, United Kingdom |
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"Timothy Hele"Parents
Sign in to add mentor| Stuart Althorpe | grad student | 2011-2014 | Cambridge |
| Nandini Ananth | post-doc | 2015-2017 | Cornell |
| Dmitry Shalashilin | post-doc | 2020-2020 | University of Leeds |
| Richard H. Friend | research scientist | 2017-2020 | Cambridge (Physics Tree) |
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Publications
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| Althorpe SC, Beniwal V, Bolhuis PG, et al. (2016) Fundamentals: general discussion. Faraday Discussions |
| Althorpe S, Angulo G, Astumian RD, et al. (2016) Application to large systems: general discussion. Faraday Discussions |
| Althorpe SC, Ananth N, Angulo G, et al. (2016) Non-adiabatic reactions: general discussion. Faraday Discussions |
| Hele TJ, Ananth N. (2016) Deriving the exact nonadiabatic quantum propagator in the mapping variable representation. Faraday Discussions |
| Hele TJ, Althorpe SC. (2016) An alternative derivation of ring-polymer molecular dynamics transition-state theory. The Journal of Chemical Physics. 144: 174107 |
| Hele TJ, Suleimanov YV. (2015) Should thermostatted ring polymer molecular dynamics be used to calculate thermal reaction rates? The Journal of Chemical Physics. 143: 074107 |
| Hele TJ, Willatt MJ, Muolo A, et al. (2015) Communication: Relation of centroid molecular dynamics and ring-polymer molecular dynamics to exact quantum dynamics. The Journal of Chemical Physics. 142: 191101 |
| Hele TJ, Willatt MJ, Muolo A, et al. (2015) Boltzmann-conserving classical dynamics in quantum time-correlation functions: "Matsubara dynamics". The Journal of Chemical Physics. 142: 134103 |
| Hele TJ, Althorpe SC. (2013) On the uniqueness of t → 0+ quantum transition-state theory. The Journal of Chemical Physics. 139: 084116 |
| Althorpe SC, Hele TJ. (2013) Derivation of a true (t → 0+) quantum transition-state theory. II. Recovery of the exact quantum rate in the absence of recrossing. The Journal of Chemical Physics. 139: 084115 |