K.L. (Koen) Groenland
- Science Park 904
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Postbus 94485
1090 GL Amsterdam
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Profile
Koen Groenland is a theoretical physicist with a PhD in the near-term applications of quantum computers from QuSoft. He works as an innovation officer at the University of Amsterdam, where he is responsible for setting up research collaborations and developing lifelong learning education for professionals. He is one of the driving forces behind Quantum.Amsterdam, the innovation hub that drives the commercialisation of quantum technologies around the Dutch capital.
Groenland's research involves the business adoption of quantum technology:
- What can companies and governments do with quantum computing?
- When will quantum computers be ready for commercial use?
- How can we rapidly update billions of applications to become secure against hackers with quantum computers?
- Do quantum networks provide sufficient value to jusitfy their costs?
- What strategic actions should organisations take today?
Outreach and public awareness are crucial for ensuring smooth transition to quantum technology. Groenland is a frequent speaker at conferences and workshops and is author of the open-access book Introduction to Quantum Computing for Business, providing essential insights to help non-technical audiences navigate this nascent field.
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Publications
2021
- Arias Espinoza, J. D., Groenland, K., Mazzanti, M., Schoutens, K., & Gerritsma, R. (2021). High-fidelity method for a single-step N -bit Toffoli gate in trapped ions. Physical Review A, 103(5), Article 052437. https://doi.org/10.1103/PhysRevA.103.052437 [details]
2020
Groenland, K., Groenland, C., & Kramer, R. (2020). Stimulated Raman adiabatic passage-like protocols for amplitude transfer generalize to many bipartite graphs. Journal of Mathematical Physics, 61(7), Article 072201. https://doi.org/10.1063/1.5116655 [details]- Groenland, K., Witteveen, F., Schoutens, K., & Gerritsma, R. (2020). Signal processing techniques for efficient compilation of controlled rotations in trapped ions. New Journal of Physics, 22(6), Article 063006. https://doi.org/10.1088/1367-2630/ab8830 [details]
- Rasmussen, S. E., Groenland, K., Gerritsma, R., Schoutens, K., & Zinner, N. T. (2020). Single-step implementation of high-fidelity n-bit Toffoli gates. Physical Review A, 101(2), Article 022308. https://doi.org/10.1103/PhysRevA.101.022308 [details]
2019
- Groenland, K. (2019). Adiabatic state distribution using anti-ferromagnetic spin systems. SciPost Physics, 6(1), Article 011. https://doi.org/10.21468/SciPostPhys.6.1.011 [details]
- Groenland, K., & Schoutens, K. (2019). Quantum gates by resonantly driving many-body eigenstates, with a focus on Polychronakos' model. Journal of Statistical Mechanics : Theory and Experiment, 2019(7), Article 073103. https://doi.org/10.1088/1742-5468/ab25e2 [details]
This list of publications is extracted from the UvA-Current Research Information System. Questions? Ask the library or the Pure staff of your faculty / institute. Log in to Pure to edit your publications. Log in to Personal Page Publication Selection tool to manage the visibility of your publications on this list. -
Ancillary activities
No ancillary activities
Groenland, K., Groenland, C., & Kramer, R. (2020). Stimulated Raman adiabatic passage-like protocols for amplitude transfer generalize to many bipartite graphs. Journal of Mathematical Physics, 61(7), Article 072201.