Peer-reviewed publications
- Miniature biplanar coils for alkali-metal-vapor magnetometry
Tayler, M.C.D., Mouloudakis, K., Zetter, R., Hunter, D., Lucivero, V.G., Bodenstedt, S., Parkkonen, L., Mitchell, M.W. (2022) Physical Review Applied, 18(1), 014036. This publication is also available on arXiv. - Laser-written vapor cells for chip-scale atomic sensing and spectroscopy
Lucivero, V.G., Zanoni, A., Corrielli, G., Osellame, R., Mitchell, M.W. (2022) Optics Express, 30(15), 27149-27163. - Terahertz electrometry via infrared spectroscopy of atomic vapor
Chen, S., Reed, D. J., MacKellar, A. R., Downes, L. A., Almuhawish, N. F. A., Jamieson, M. J., Adams, C. S., Weatherill, K. J. (2022) Optica, 9(5), 485-491. - SU(2)-in-SU(1,1) Nested Interferometer for High Sensitivity, Loss-Tolerant Quantum Metrology
Du, W., Kong, J., Bao, G., Yang, P., Jia, J., Ming, S., Yuan, C.-H., Chen, J.F., Ou, Z.Y., Mitchell, M.W., Zhang, W. (2022) Physical Review Letters, 128(3), 33601. - Cavity-enhanced polarization rotation measurements for low-disturbance probing of atoms
Mazzinghi, C., Orenes, D. B., Gomez, P., Lucivero, V. G., Aybar, E., Gugnani, S., Mitchell, M. W. (2021) Optics Express, 29(25), 40854-40864. - Improving short-term stability in optical lattice clocks by quantum non-demolition measurements
Orenes, D. B., Sewell, R. J., Lodewyck, J., Mitchell, M. W. (2021) arXiv, 2109.08418 [quant-ph]. - Single-domain Bose condensate magnetometer achieves energy resolution per bandwidth below ℏ
Palacios Alvarez, S., Gomez, P., Coop, S., Zamora-Zamora, R., Mazzinghi, C., Mitchell, M. W. (2021) Proceedings of the National Academy of Sciences, 119(6), e2115339119. This publication is also available on arXiv. - GNSS-grade space atomic frequency standards: Current status and ongoing developments
Batori, E., Almat, N., Affolderbach, C., Mileti, G. ( 2021) Advances in Space Research, 68(12), pp. 4723-4733. - Squeezed-light enhancement of sensitivity and signal bandwidth in an optically-pumped magnetometer
Troullinou, C., Jiménez-Martínez, R., Kong, J., Lucivero, V. G., Mitchell, M. W. (2021) Physical Review Letters, 127 (19), 193601. This publication is also available on arXiv. - Cavity-enhanced atomic polarization rotation measurements
Mazzinghi, C., Orenes, D. B., Gomez Kabelka, P., Aybar, E., Gugnani, S., Mitchell, M. W. (2021) arXiv, 2107.13302 [quant-ph]. - Scaling laws for the Sensitivity Enhancement of Non-Gaussian Spin States
Baamara, Y., Sinatra, A., Gessner, M. (2021) Physical Review Letters, 127(16), 160501. This publication is also available on arXiv. - Unconventional quantum correlations of light emitted by a single atom in free space
Goncalves, D., Mitchell, M. W., Chang, D. E. (2021) Physical Review A, 104(1), 013724. - A general method for computing thermal magnetic noise arising from thin conducting objects
Iivanainen, J., Mäkinen, A.J., Zetter, R., Zevenhoven, K.C.J., Ilmoniemi, R.J., Parkkonen, L. (2021) Journal of Applied Physics, 130(4), 043901. A preprint of this publication is available on arXiv. - Étude théorique de la compression de spin nucléaire par mesure quantique non destructive en continu / Theoretical study of nuclear spin squeezing by continuous quantum non-demolition measurement
Serafin, A., Castin, Y., Fadel, M., Treutlein, P., Sinatra, A. (2021) Comptes Rendus Physique, 22 (1), 1-35. - Nuclear spin squeezing by continuous quantum non-demolition measurement: a theoretical study
Serafin, A., Castin, Y., Fadel, M., Treutlein, P., Sinatra, A. (2020) arXiv, 2012.14686 [physics.atom-ph]. - Nuclear spin squeezing in Helium-3 by continuous quantum nondemolition measurement
Serafin, A., Fadel, M., Treutlein, P., Sinatra, A. (2021) Physical Review Letters, 127(1), 013601. - Device-independent randomness expansion with entangled photons
Shalm, L.K., Zhang, Y., Bienfang, J.C., Schlager, C., Stevens, M. J., Mazurek, M.D., Abellán, C., Amaya, W., Mitchell, M.W., Alhejji, M.A., Fu, H., Ornstein, J., Mirin, R.P., Nam, S.W., Knill, E. (2021) Nature Physics, 17(1), pp. 452–456. - Magnetic field modeling with surface currents. Part II. Implementation and usage of bfieldtools
Zetter, R., Mäkinen, A.J., Iivanainen, J., Zevenhoven, K.C.J., Ilmoniemi, R.J., Parkkonen, L. (2020) Journal of Applied Physics, 128(6), 10897550. A preprint of this publication is available on arXiv. - Magnetic-field modeling with surface currents. Part I. Physical and computational principles of bfieldtools
Mäkinen, A.J., Zetter, R., Iivanainen, J., Zevenhoven, K.C.J., Parkkonen, L., Ilmoniemi, R.J. (2020) Journal of Applied Physics, 128(6), 063906. A preprint of this publication is available on arXiv. - Experimental Low-Latency Device-Independent Quantum Randomness
Zhang, Y., Shalm, L.K., Bienfang, J.C., Stevens, M.J., Mazurek, M.D., Nam, S.W., Abellán, C., Amaya, W., Mitchell, M.W., Fu, H., Miller, C.A., Mink, A., Knill, E. (2020) Physical Review Letters, 124(1), 10505. - Bose-Einstein Condensate Comagnetometer
Gomez, P., Martin, F., Mazzinghi, C., Orenes, D.B., Palacios, S., Mitchell, M.W. (2020) Physical Review Letters, 124(17), 170401. A preprint of this publication is available on arXiv. - SU(2)-in-SU(1,1) nested interferometer
Du, W., Jia, J., Ming, S., Yuan, C., Chen, J.F., Ou, Z.Y., Mitchell, M.W., Zhang, W. (2020) arXiv, 2004.14266 [quant-ph]. - Scale-invariant spin dynamics and the quantum limits of field sensing
Mitchell, M.W. (2020) New Journal of Physics, 22(5), 053041.
A preprint of this publication is available on arXiv. - Measurement-induced, spatially-extended entanglement in a hot, strongly-interacting atomic system
Kong, J., Jiménez-Martínez, R., Troullinou, C., Lucivero, V., Tóth, G., Mitchell, M.W. (2020) Nature Communications, 11(1), 2415. - Quantum limits to the energy resolution of magnetic field sensors
Mitchell, M.W., Palacios Álvarez, S. (2020) Reviews of Modern Physics, 92(2), 021001.
A preprint of this publication is available on arXiv. - An optogalvanic gas sensor based on Rydberg excitations
Schmidt, J., Münzenmaier, Y., Kaspar, P., Schalberger, P., Baur, H., Löw, R., Fruehauf, N., Pfau, T., Kübler, H. (2020) Journal of Physics B: Atomic, Molecular and Optical Physics, 53(9), 1-5. - Full-Field Terahertz Imaging at Kilohertz Frame Rates Using Atomic Vapor
Downes, L.A., MacKellar, A.R., Whiting, D.J., Bourgenot, C., Adams, C.S., Weatherill, K.J. (2020) Physical Review X, 10(1), 011027. A preprint of this publication is available on arXiv. - Narrowband photon pairs with independent frequency tuning for quantum light-matter interactions
Prakash, V., Bianchet, L.C., Cuairan, M.T., Gomez, P., Bruno, N., Mitchell, M.W. (2019) Optics Express, 27(26), 38463-38478. - Detection of low-conductivity objects using eddy current measurements with an optical magnetometer
Jensen, K., Zugenmaier, M., Arnbak, J., Stærkind, H., Balabas, M.V., Polzik, E.S. (2019) Physical Review Research, 1(3), 033087. This publication is also available in the UCPH repository. - Maltese cross coupling to individual cold atoms in free space
Bruno, N., Bianchet, L.C., Prakash, V., Li, N., Alves, N., Mitchell, M.W. (2019) Optics Express, 27(21), 31042-31052. A preprint of this publication is available on arXiv. - Interferometric measurement of interhyperfine scattering lengths in 87Rb
Gomez, P., Mazzinghi, C., Martin, F., Coop, S., Palacios, S., Mitchell, M.W. (2019) Physical Review A, 100(3), 32704. - Long-Term Stability Analysis Toward <10-14 Level for a Highly Compact POP Rb Cell Atomic Clock
Almat, N., Gharavipour, M., Moreno, W., Gruet, F., Affolderbach, C., Mileti, G. (2019) IEEE Transactions on Ultrasonics, Ferroelectronics, and Frequency Control (TUFFC), 67(1), 207-216.
Oral presentations at conferences
- A Hot Vapor Optical Clock Targeting Miniature Dimensions with Frequency Instability Below 10-13
Centre Suisse d’Electronique et de Microtechnique SA (CSEM), 2022, EFTS-IFCS, Paris. - Miniature Atomic Clock Driven by an Application Specific Integrated Circuit (ASIC)
Centre Suisse d’Electronique et de Microtechnique SA (CSEM), 2022, EFTS-IFCS, Paris. - Adapting a Flat-Form Factor Miniature Atomic Clock to a Commercial Package: Preliminary Characterization
Centre Suisse d’Electronique et de Microtechnique SA (CSEM), 2022, EFTS-IFCS, Paris. - Chip Scale Rubidium Oscillator for Space Application
Orolia Switzerland SA (SPT), 2022, EFTS-IFCS, Paris. - Long-Term Instability of a Pulsed Optically Pumped Micro-cell Rubidium Frequency Standard
University of Neuchâtel (UNINE), 2022, EFTS-IFCS, Paris. - Miniature atomic clock using pulsed double resonance on a micro-fabricated Rubidium vapor cell
University of Neuchâtel (UNINE), 2022, Precise Time and Time Interval Symposium (PTTI), Long Beach. - Ramsey Spectroscopy in a micro-Fabricated Rb Vapor Cell for Miniature Atomic Clocks
University of Neuchâtel (UNINE), 2021, EFTF-IFCS 2021, online. - Small Clocks
University of Neuchâtel (UNINE), 2021, European Frequency and Time Seminar (EFTS), Besançon. - Introduction to the Physics of Atomic Clocks
University of Neuchâtel (UNINE), 2021, European Frequency and Time Seminar (EFTS), Besançon. - Introduction to Atomic Clocks
University of Neuchâtel (UNINE), 2021, European Frequency and Time Seminar (EFTS), Besançon. - Quantum Sensors – challenges and chances
Robert Bosch GmbH (BOSCH), 2021, Quantum Industry Day, online. - Towards optical quantum control of nuclear spins in Helium-3 gas
University of Basel (UNIBAS), 2021, WOPM 2021, online. - On the quantum limits of field sensing
The Institute of Photonic Sciences (ICFO), 2021, SAMOP21, online. - Towards an Optogalvanic Flux Sensor for Nitric Oxigene Based on Rydberg Excitation
University of Stuttgart (STUTT), OSA Optical Sensing and Sensors Congres 2021, online. - Update on macQsimal – Miniature Atomic vapor-Cells Quantum devices for SensIng and Metrology AppLications
Centre Suisse d’Electronique et de Microtechnique SA (CSEM), 2020, European Quantum Week, online. - Towards a frequency-tunable microwave magnetic field imager withultrathin atomic vapor cells
University of Basel (UNIBAS), 2020, micro-WOPM 2020, online.
The recording of the presentation is available on Youtube. - Simulations and Control Theory for Nuclear Magnetic Resonance Gyroscopes
Robert Bosch GmbH (BOSCH), 2020, micro-WOPM 2020, online.
The recording of the presentation is available on Youtube. - Sub-pT optical magnetometry with squeezed light
The Institute of Photonic Sciences (ICFO), 2020, micro-WOPM 2020, online.
The recording of the presentation is available on Youtube. - Quantum Sensors @ CSEM
Centre Suisse d’Electronique et de Microtechnique SA (CSEM), 2020, Quantum Industry Day, online. - Optical Field Probes for MRI
Niels Bohr Institute (NBI), 2020, ISMRM & SMRT Virtual Conference, online. - The Global Leader in Resilent PNT – Safety, Security and Reliability
Orolia Switzerland SA (SPT), 2020, EPIC Online Technology Meeting on Atomic Clocks and Quantum Sensors, online. - Atomic clocks and Quantum Sensors @ CSEM
Centre Suisse d’Electronique et de Microtechnique SA (CSEM), 2020, EPIC Online Technology Meeting on Atomic Clocks and Quantum Sensors, online. - macQsimal
Centre Suisse d’Electronique et de Microtechnique SA (CSEM), 2019, IQMS, Paris. - Quantum sensors and miniature atomic clock
Centre Suisse d’Electronique et de Microtechnique SA (CSEM), 2019, CSEM Business Day, Basel. - Quantum Sensors – Challenges and Opportunities
Robert Bosch GmbH (BOSCH), 2019, Quantum Industry Day, Zurich. - Quantum Sensing @ CSEM
Centre Suisse d’Electronique et de Microtechnique SA (CSEM), 2019, Quantum Industry Day, Zurich. - Quantum Sensors at CSEM
Centre Suisse d’Electronique et de Microtechnique SA (CSEM), 2019, Quantum Industry Day, Zurich. - GHz microwave field imaging with atomic vapor cells
University of Basel (UNIBAS), 2019, Quantum Sensing & Magnetometry, Bad Honnef. - Quantum Sensors at Bosch from proof of concept to market
Robert Bosch GmbH (BOSCH), 2019, LASER World of Photonics Fair, Munich. - High Performance and Miniature Vapor Cell Atomic Clocks
University of Neuchâtel (UNINE), 2019, Swiss Nanoconvention 2019, Lausanne. - Consumer applications: Atomic NMR Gyroscopes and Diamond Magnetometers
Robert Bosch GmbH (BOSCH), 2019, EPIC Summit, Barcelona. - Alkali metal condensation zones in MEMS alkali vapor cells and characterization in CPT clock
Centre Suisse d’Electronique et de Microtechnique SA (CSEM), 2019, CLEO, San Jose. - Quantum Sensing with Interacting Atoms
The Institute of Photonic Sciences (ICFO), 2019, CLEO, San Jose. - Investigations on Microwave Power Shift in Compact Vapor-Cell Atomic Clock
University of Neuchâtel (UNINE), 2019, IFCS-EFTF, Orlando. - Sensing with Squeezed and Entangled States of Light and Atoms
The Institute of Photonic Sciences (ICFO), 2019, IFCS-EFTF, Orlando. - Quantum Sensors – Challenges and Opportunities
Robert Bosch GmbH (BOSCH), 2018, Quantum Industry Day, Zurich.
Posters at conferences
- Experimental Determination of Relaxation Rates in a Ramsey-mode Rubidium Cell Atomic Clock
University of Neuchâtel (UNINE), 2022, European Frequency and Time Seminar (EFTS), Paris. - Ramsey Spectroscopy in a micro-Fabricated Rb Vapor Cell for Miniature Atomic Clocks
University of Neuchâtel (UNINE), 2021, EFTF-IFCS 2021, online. - Prediction of NMR Gyroscope Performance using Numerical Modelling
Robert Bosch GmbH (BOSCH),2021, WOPM 2021, online. - Nuclear Magnetic Resonance Gyroscopes for Precise Positioning
Robert Bosch GmbH (BOSCH), 2020, 1st ZULF NMR Conference, online. - Custom Rb-Xe Cells for Atomic Gyroscopes
University of Neuchâtel (UNINE), 2020, BQMS, Basel. - Coil design framework for atomic sensors
Aalto University (AALTO), 2019, Workshop on optically-pumped magnetometers, Main.