Your search keyword '"Riley, Jonathon M."' showing total 12 results

1. Many-body interactions and spin-splitting of the electronic structure in WSe₂ and EuO

Author

Riley, Jonathon M., King, Phil, Hoesch, Moritz, and Hesjedal, T.

Abstract

The ability to create and control spin-polarised electronic states in solids is vital for realising all-electrical manipulation of spins for the next generation of electronic devices. Such devices are likely to rely upon the injection of a spin-current into a semiconducting material whereupon the current is manipulated for the transfer of data. Two such materials that have been proposed for spin injection and manipulation are EuO, a ferromagnetic semiconductor, and WSe2, a member of the layered transition metal dichalcogenides, respectively. By directly probing the electronic band structure using angle-resolved photoemission spectroscopy, ARPES, and its spin-resolved analogue, SARPES, a "hidden" spin-polarisaion is observed in bulk WSe2 due to the local breaking of inversion symmetry that locks the spin to the valley- and layer-pseudospins. By chemical gating, the layerdegeneracy is broken which induces a spin-splitting of the valence bands and the formation of a 2DEG. Increasing the carrier density of the 2DEG is shown to result in a lowering of the chemical potential, providing direct spectroscopic evidence for many body effects due to electron-electron interactions. Whereas WSe2 hosts spin-polarised states due to local inversion-symmetry breaking, ferromagnetism induces spin-polarised valence and conduction band states in Gd-doped EuO that break time-reversal symmetry. Using ARPES, the full 3D dispersion of the conduction bands is observed for the first time and the temperature dependence of the spin-split conduction band is analysed. By varying the Gd concentration, the carrier density is varied, revealing two kinds of satellite features due to electron-phonon and electron-plasmon interactions in the low temperature phase. Thus, despite differences in dimensionality, structure and symmetries, both materials show evidence of electron interactions which are directly measurable by ARPES and are seen to host spin-split electronic states that can be manipulated via external conditions.

Published

2017

2. Spin and Valley Control of Free Carriers in Single-Layer WS$_2$

Author

Ulstrup, Søren, Čabo, Antonija Grubišić, Biswas, Deepnarayan, Riley, Jonathon M., Dendzik, Maciej, Sanders, Charlotte E., Bianchi, Marco, Cacho, Cephise, Matselyukh, Dan, Chapman, Richard T., Springate, Emma, King, Phil D. C., Miwa, Jill A., and Hofmann, Philip

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The semiconducting single-layer transition metal dichalcogenides have been identified as ideal materials for accessing and manipulating spin- and valley-quantum numbers due to a set of favorable optical selection rules in these materials. Here, we apply time- and angle-resolved photoemission spectroscopy to directly probe optically excited free carriers in the electronic band structure of a high quality single layer of WS$_2$. We observe that the optically generated free hole density in a single valley can be increased by a factor of 2 using a circularly polarized optical excitation. Moreover, we find that by varying the photon energy of the excitation we can tune the free carrier density in a given spin-split state around the valence band maximum of the material. The control of the photon energy and polarization of the excitation thus permits us to selectively excite free electron-hole pairs with a given spin and within a single valley., Comment: 5 pages, 4 figures

Published

2016

3. Ultrafast Band Structure Control of a Two-Dimensional Heterostructure

Author

Ulstrup, Søren, Čabo, Antonija Grubišić, Miwa, Jill A., Riley, Jonathon M., Grønborg, Signe S., Johannsen, Jens C., Cacho, Cephise, Alexander, Oliver, Chapman, Richard T., Springate, Emma, Bianchi, Marco, Dendzik, Maciej, Lauritsen, Jeppe V., King, Phil D. C., and Hofmann, Philip

Subjects

Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The electronic structure of two-dimensional (2D) semiconductors can be significantly altered by screening effects, either from free charge carriers in the material itself, or by environmental screening from the surrounding medium. The physical properties of 2D semiconductors placed in a heterostructure with other 2D materials are therefore governed by a complex interplay of both intra- and inter-layer interactions. Here, using time- and angle-resolved photoemission, we are able to isolate both the layer-resolved band structure and, more importantly, the transient band structure evolution of a model 2D heterostructure formed of a single layer of MoS$_2$ on graphene. Our results reveal a pronounced renormalization of the quasiparticle gap of the MoS$_2$ layer. Following optical excitation, the band gap is reduced by up to $\sim\!$400 meV on femtosecond timescales due to a persistence of strong electronic interactions despite the environmental screening by the $n$-doped graphene. This points to a large degree of tuneability of both the electronic structure and electron dynamics for 2D semiconductors embedded in a van der Waals-bonded heterostructure., Comment: 22 pages, 5 figures, Published in ACS Nano 2016

Published

2016

4. Spectroscopic view of ultrafast charge carrier dynamics in single- and bilayer transition metal dichalcogenide semiconductors

Author

Majchrzak, Paulina, Volckaert, Klara, Čabo, Antonija Grubišić, Biswas, Deepnarayan, Bianchi, Marco, Mahatha, Sanjoy K., Dendzik, Maciej, Andreatta, Federico, Grønborg, Signe S., Marković, Igor, Riley, Jonathon M., Johannsen, Jens C., Lizzit, Daniel, Bignardi, Luca, Lizzit, Silvano, Cacho, Cephise, Alexander, Oliver, Matselyukh, Dan, Wyatt, Adam S., Chapman, Richard T., Springate, Emma, Lauritsen, Jeppe V., King, Phil D.C., Sanders, Charlotte E., Miwa, Jill A., Hofmann, Philip, and Ulstrup, Søren

Published

2021

5. Observation of Ultrafast Free Carrier Dynamics in Single Layer MoS$_2$

Author

Čabo, Antonija Grubišić, Miwa, Jill A., Grønborg, Signe S., Riley, Jonathon M., Johannsen, Jens C., Cacho, Cephise, Alexander, Oliver, Chapman, Richard T., Springate, Emma, Grioni, Marco, Lauritsen, Jeppe V., King, Phil D. C., Hofmann, Philip, and Ulstrup, Søren

Subjects

Condensed Matter - Materials Science

Abstract

The dynamics of excited electrons and holes in single layer (SL) MoS$_2$ have so far been difficult to disentangle from the excitons that dominate the optical response of this material. Here, we use time- and angle-resolved photoemission spectroscopy for a SL of MoS$_2$ on a metallic substrate to directly measure the excited free carriers. This allows us to ascertain a direct quasiparticle band gap of 1.95 eV and determine an ultrafast (50 fs) extraction of excited free carriers via the metal in contact with the SL MoS$_2$. This process is of key importance for optoelectronic applications that rely on separated free carriers rather than excitons., Comment: 15 pages, 4 Figures. To appear in Nano Letters, 2015

Published

2015

6. Spin and valley control of free carriers in single-layer WS2

Author

Ulstrup, Søren, primary, Čabo, Antonija Grubišić, additional, Biswas, Deepnarayan, additional, Riley, Jonathon M., additional, Dendzik, Maciej, additional, Sanders, Charlotte E., additional, Bianchi, Marco, additional, Cacho, Cephise, additional, Matselyukh, Dan, additional, Chapman, Richard T., additional, Springate, Emma, additional, King, Phil D. C., additional, Miwa, Jill A., additional, and Hofmann, Philip, additional

Published

2017

7. Ultrafast Band Structure Control of a Two-Dimensional Heterostructure

Author

Ulstrup, Søren, primary, Čabo, Antonija Grubišić, additional, Miwa, Jill A., additional, Riley, Jonathon M., additional, Grønborg, Signe S., additional, Johannsen, Jens C., additional, Cacho, Cephise, additional, Alexander, Oliver, additional, Chapman, Richard T., additional, Springate, Emma, additional, Bianchi, Marco, additional, Dendzik, Maciej, additional, Lauritsen, Jeppe V., additional, King, Phil D. C., additional, and Hofmann, Philip, additional

Published

2016

8. Nearly free electrons in a 5 d delafossite oxide metal

Author

Kushwaha, Pallavi, primary, Sunko, Veronika, additional, Moll, Philip J. W., additional, Bawden, Lewis, additional, Riley, Jonathon M., additional, Nandi, Nabhanila, additional, Rosner, Helge, additional, Schmidt, Marcus P., additional, Arnold, Frank, additional, Hassinger, Elena, additional, Kim, Timur K., additional, Hoesch, Moritz, additional, Mackenzie, Andrew P., additional, and King, Phil D. C., additional

Published

2015

9. Observation of Ultrafast Free Carrier Dynamics in Single Layer MoS2

Author

Grubišić Čabo, Antonija, primary, Miwa, Jill A., additional, Grønborg, Signe S., additional, Riley, Jonathon M., additional, Johannsen, Jens C., additional, Cacho, Cephise, additional, Alexander, Oliver, additional, Chapman, Richard T., additional, Springate, Emma, additional, Grioni, Marco, additional, Lauritsen, Jeppe V., additional, King, Phil D. C., additional, Hofmann, Philip, additional, and Ulstrup, Søren, additional

Published

2015

10. Spectroscopic view of ultrafast charge carrier dynamics in single- and bilayer transition metal dichalcogenide semiconductors

Author

Jeppe V. Lauritsen, Adam S. Wyatt, Maciej Dendzik, Oliver Alexander, Klara Volckaert, Daniel Lizzit, Sanjoy K. Mahatha, Igor Marković, Phil D. C. King, Luca Bignardi, Philip Hofmann, Dan Matselyukh, Charlotte E. Sanders, Søren Ulstrup, Federico Andreatta, Cephise Cacho, Signe S. Grønborg, J. M. Riley, Paulina Majchrzak, Jens Christian Johannsen, Deepnarayan Biswas, Antonija Grubišić Čabo, Emma Springate, Silvano Lizzit, Richard T. Chapman, Marco Bianchi, Jill A. Miwa, The Leverhulme Trust, The Royal Society, University of St Andrews. School of Physics and Astronomy, University of St Andrews. Centre for Designer Quantum Materials, University of St Andrews. Condensed Matter Physics, Majchrzak, Paulina, Volckaert, Klara, Čabo, Antonija Grubišić, Biswas, Deepnarayan, Bianchi, Marco, Mahatha, Sanjoy K., Dendzik, Maciej, Andreatta, Federico, Grønborg, Signe S., Marković, Igor, Riley, Jonathon M., Johannsen, Jens C., Lizzit, Daniel, Bignardi, Luca, Lizzit, Silvano, Cacho, Cephise, Alexander, Oliver, Matselyukh, Dan, Wyatt, Adam S., Chapman, Richard T., Springate, Emma, Lauritsen, Jeppe V., King, Phil D. C., Sanders, Charlotte E., Miwa, Jill A., Hofmann, Philip, and Ulstrup, Søren

Subjects

excitons, optoelectronics, Dirac (software), ultrafast carrier dynamics, Library science, FOS: Physical sciences, ws2, mechanism, Bandgap renormalization, 02 engineering and technology, giant bandgap renormalization, 01 natural sciences, electronic-properties, Ultrafast carrier dynamics, Time-and angle-resolved photoemission spectroscopy, Transition metal dichalcogenides, mos2, Condensed Matter::Materials Science, Transition metal dichalcogenide, Molybdenum compounds, 0103 physical sciences, Physical and Theoretical Chemistry, Conduction band, Spectroscopy, QC, Independent research, bandgap renormalization, Condensed Matter - Materials Science, Radiation, 010304 chemical physics, transition metal dichalcogenides, Transient conduction, Materials Science (cond-mat.mtrl-sci), DAS, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Ultrafast carrier dynamic, time-and angle-resolved photoemission spectroscopy, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Time- and angle-resolved photoemission spectroscopy, QC Physics, Charge carrier, Condensed Matter::Strongly Correlated Electrons, 0210 nano-technology, Sapere aude

Abstract

The quasiparticle spectra of atomically thin semiconducting transition metal dichalcogenides (TMDCs) and their response to an ultrafast optical excitation critically depend on interactions with the underlying substrate. Here, we present a comparative time- and angle-resolved photoemission spectroscopy (TR-ARPES) study of the transient electronic structure and ultrafast carrier dynamics in the single- and bilayer TMDCs MoS$_2$ and WS$_2$ on three different substrates: Au(111), Ag(111) and graphene/SiC. The photoexcited quasiparticle bandgaps are observed to vary over the range of 1.9-2.3 eV between our systems. The transient conduction band signals decay on a sub-100 fs timescale on the metals, signifying an efficient removal of photoinduced carriers into the bulk metallic states. On graphene, we instead observe two timescales on the order of 200 fs and 50 ps, respectively, for the conduction band decay in MoS$_2$. These multiple timescales are explained by Auger recombination involving MoS$_2$ and in-gap defect states. In bilayer TMDCs on metals we observe a complex redistribution of excited holes along the valence band that is substantially affected by interactions with the continuum of bulk metallic states., Comment: 10 pages, 4 figures

Published

2021

11. Spin and valley control of free carriers in single-layer WS2.

Author

Ulstrup, Søren, Čabo, Antonija Grubišić, Biswas, Deepnarayan, Riley, Jonathon M., Dendzik, Maciej, Sanders, Charlotte E., Bianchi, Marco, Cacho, Cephise, Matselyukh, Dan, Chapman, Richard T., Springate, Emma, King, Phil D. C., Miwa, Jill A., and Hofmann, Philip

Subjects

*PHOTOEMISSION, *SEMICONDUCTORS, *SPECTROMETRY

Abstract

The semiconducting single-layer transition-metal dichalcogenides have been identified as ideal materials for accessing and manipulating spin- and valley-quantum numbers due to a set of favorable optical selection rules in these materials. Here, we apply time- and angle-resolved photoemission spectroscopy to directly probe optically excited free carriers in the electronic band structure of a high quality single layer (SL) of WS2 grown on Ag(111). We present a momentum-resolved analysis of the optically generated free hole density around the valence band maximum of SL WS2 for linearly and circularly polarized optical excitations. We observe that the excited free holes are valley polarized within the upper spin-split branch of the valence band, which implies that the photon energy and polarization of the excitation permit selective excitations of free electron-hole pairs with a given spin and within a single valley. [ABSTRACT FROM AUTHOR]

Published

2017

12. Nearly free electrons in a 5d delafossite oxide metal.

Author

Kushwaha P, Sunko V, Moll PJ, Bawden L, Riley JM, Nandi N, Rosner H, Schmidt MP, Arnold F, Hassinger E, Kim TK, Hoesch M, Mackenzie AP, and King PD

Abstract

Understanding the role of electron correlations in strong spin-orbit transition-metal oxides is key to the realization of numerous exotic phases including spin-orbit-assisted Mott insulators, correlated topological solids, and prospective new high-temperature superconductors. To date, most attention has been focused on the 5d iridium-based oxides. We instead consider the Pt-based delafossite oxide PtCoO2. Our transport measurements, performed on single-crystal samples etched to well-defined geometries using focused ion beam techniques, yield a room temperature resistivity of only 2.1 microhm·cm (μΩ-cm), establishing PtCoO2 as the most conductive oxide known. From angle-resolved photoemission and density functional theory, we show that the underlying Fermi surface is a single cylinder of nearly hexagonal cross-section, with very weak dispersion along k z . Despite being predominantly composed of d-orbital character, the conduction band is remarkably steep, with an average effective mass of only 1.14m e. Moreover, the sharp spectral features observed in photoemission remain well defined with little additional broadening for more than 500 meV below E F, pointing to suppressed electron-electron scattering. Together, our findings establish PtCoO2 as a model nearly-free-electron system in a 5d delafossite transition-metal oxide.

Published

2015