[1] T. Debuisschert, Quantum Sensing Gordon research conference, Hong Kong 3-7 June 2019, Application of NV Centers for Microwave Sensing, INVITED
[2] J. Achard et al. ICDCM conference Seville 8-12 Sep. 2019, Towards optimized (113) doped diamond films with NV colour centres for quantum sensing
[3] F. Jelezko, Quantum Sensing Gordon research conference, Hong Kong 3-7 June 2019, Diamond Quantum Sensing for Nuclear Magnetic Resonance INVITED
[4] J. Achard et al., Quantum 2019, Turin 26 May-1 June, Engineering Doped Single Crystal Diamond Films For Quantum Applications INVITED
[5] M. De Feudis et al., Quantum 2019, Turin 26 May-1 June, NV, SiV and GeV centers incorporated into CVD nanodiamonds : study of the growth process and the optical properties.
[6] M. De Feudis et al., SIRTEQ workshop, Oct. 2018, Study and optimization of CVD diamond nanoparticle process for quantum technologies
[7] J. Achard et al. Fall Meeting MRS, Boston, USA, 26 - 30 Nov. 2018, Engineering doped single crystal diamond films for electronic and quantum applications INVITED
[8] Thomas Astner, 693. WE Heraeus Seminar on Diamond Quantum Technologies, Bad Honneff March 25-28, awarded Best Poster Prize
[9] Johannes Majer, Superconductivity meets Molecular Spins (SMS), Lisbon, March the 21-22 2019, Talk "Hybrid Quantum Systems: Coupling Spins to Superconducting Resonators“ INVITED
[10] L. Mayer et al., European Material Research Society Fall Meeting, Varsovie septembre 2018
[11] T. Debuisschert et al., Heraeus Seminar, Bad Honnef, 25-27 mars 2019
[12] Wenzel Kersten, 2nd European Conference on Molecular Spintronics ECMOLS, Peniscola Spain 21-24 October 2018, Poster "Coupling spins to superconducting circuits for quantum technologies"
Journal Publications
[1] A. Tallaire, O. Brinza, P. Huillery, T. Delord, C. Pellet-Mary, R. Staacke, B. Abel, S. Pezzagna, J. Meijer, N. Touati, L. Binet, A. Ferrier, P. Goldner, G. Hetet, J. Achard, High NV density in a pink CVD diamond grown with N2O addition, Carbon. 170 (2020) 421–429.
[2] J. Achard, V. Jacques, A. Tallaire, Chemical vapour deposition diamond single crystals with nitrogen-vacancy centres: a review of material synthesis and technology for quantum sensing applications, J. Phys. D: Appl. Phys. 53 (2020) 313001.
[3] S. Chouaieb, L.J. Martínez, W. Akhtar, I. Robert-Philip, A. Dréau, O. Brinza, J. Achard, A. Tallaire, V. Jacques, Optimizing synthetic diamond samples for quantum sensing technologies by tuning the growth temperature, Diam. & Relat. Mat., 96 (2019) 85-89.
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[4] Tallaire, A.; Brinza, O.; De Feudis, M.; Ferrier, A.; Touati, N.; Binet, L.; Nicolas, L.; Delord, T.; Hétet, G.; Herzig, T.; Pezzagna, S.; Goldner, P.; Achard, J., Synthesis of Loose Nanodiamonds Containing Nitrogen-Vacancy Centers for Magnetic and Thermal Sensing. ACS Applied Nano Materials 2019, 2 (9), 5952-5962.
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[5] H. Zhou, J. Choi, S. Choi, R. Landig, A.M. Douglas, J. Isoya, F. Jelezko, S. Onoda, H. Sumiya, P. Cappellaro, H.S. Knowles, H. Park, M.D. Lukin, Quantum Metrology with Strongly Interacting Spin Systems, Phys. Rev. X. 10 (2020) 031003.
[6] C. Osterkamp, M. Mangold, J. Lang, P. Balasubramanian, T. Teraji, B. Naydenov, F. Jelezko, Engineering preferentially-aligned nitrogen-vacancy centre ensembles in CVD grown diamond, Scientific Reports, 9 (2019) 5786.
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[6] C. Osterkamp, M. Mangold, J. Lang, P. Balasubramanian, T. Teraji, B. Naydenov, F. Jelezko, Engineering preferentially-aligned nitrogen-vacancy centre ensembles in CVD grown diamond, Scientific Reports, 9 (2019) 5786.
[7] M. De Feudis, A. Tallaire, L. Nicolas, O. Brinza, P. Goldner, G. Hétet, F. Bénédic, J. Achard, Large-Scale Fabrication of Highly Emissive Nanodiamonds by Chemical Vapor Deposition with Controlled Doping by SiV and GeV Centers from a Solid Source, Advanced Materials Interfaces, 7, 1901408 (2020).
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[8] T Lühmann, J Küpper, S Dietel, R Staacke, J Meijer, S Pezzagna, Charge-State Tuning of Single SnV Centers in Diamond, ACS Photonics 7 (12), 3376-3385 (2020)
S Pezzagna, J Meijer, Quantum computer based on color centers in diamond, Applied Physics Reviews 8 (1), 011308
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[9] P Räcke, L Pietzonka, J Meijer, D Spemann, R Wunderlich, Vacancy diffusion and nitrogen-vacancy center formation near the diamond surface, Applied Physics Letters 118 (20), 204003 (2021)
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[10] R Wunderlich, R Staacke, W Knolle, B Abel, J Meijer, Magnetic field and angle-dependent photoluminescence of a fiber-coupled nitrogen vacancy rich diamond, Journal of Applied Physics 130 (12), 124901 (2021)
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[11] Balasubramanian P, Metsch MH, Reddy P, Rogers LJ, Manson NB, Doherty MW, et al. Discovery of ST1 centers in natural diamond. Nanophotonics. 2019;8(11):1993-2002.
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[12] Staacke R, John R, Kneiss M, Osterkamp C, Diziain S, Jelezko F, et al. Method of full polarization control of microwave fields in a scalable transparent structure for spin manipulation. J Appl Phys. 2020;128(19).
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[13] Staudenmaier N, Schmitt S, McGuinness LP, Jelezko F. Phase-sensitive quantum spectroscopy with high-frequency resolution. Phys Rev A. 2021;104(2).
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[14] Schmitt S, Gefen T, Louzon D, Osterkamp C, Staudenmaier N, Lang JN, et al. Optimal frequency measurements with quantum probes. Npj Quantum Inform. 2021;7(1).
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Conference presentations
Publications within the Microsens Project
DISSEMINATION
