Zusammenfassung der Projektergebnisse

1. Experimental studying of quantum spin dynamics of isotopically purified rare-earth doped crystals Er:YSO, Er:LYF at ultra-low temperatures (below 1 Kelvin) by using optical vector analysis. Such temperature range is assumed to be very useful for the implementing of quantum frequency converters, long-lived hyperfine quantum memory for microwave or optical qubits and for off-resonant Raman memory. 2. Implementation of optical vector network analysis for the ultra-precise optical spectroscopy. 3. Implementation of confocal microscopy of SiV centers in diamond at mK temperatures. 4. Implementation of all-optical coherent control of SiV centers at mK temperatures. 5. Experimental studying of spin decoherence mechanisms of SIV centers at mK temperatrures.

Projektbezogene Publikationen (Auswahl)

• All-Optical Control of the Silicon-Vacancy Spin in Diamond at Millikelvin Temperatures. Physical Review Letters, 120(5).
  Becker, Jonas N.; Pingault, Benjamin; Groß, David; Gündoğan, Mustafa; Kukharchyk, Nadezhda; Markham, Matthew; Edmonds, Andrew; Atatüre, Mete; Bushev, Pavel & Becher, Christoph
  
• Optical coherence of166Er:7LiYF4crystal below 1 K. New Journal of Physics, 20(2), 023044.
  Kukharchyk, N.; Sholokhov, D.; Morozov, O.; Korableva, S. L.; Kalachev, A. A. & Bushev, P. A.
  
• Optical vector network analysis of ultranarrow transitions in 166Er3+ : 7LiYF4 crystal. Optics Letters, 43(4), 935.
  Kukharchyk, N.; Sholokhov, D.; Morozov, O.; Korableva, S. L.; Cole, J. H.; Kalachev, A. A. & Bushev, P. A.