References

PhD Theses

• BBR-insensitive clock transition in thulium atoms
  Tregubov Dmitry
  2020, Lebedev Physical Institute of RAS (PDF_RU)

• Ultracold thulium atoms in optical lattice near magic wavelength
  Fedorova Elena
  2019, Lebedev Physical Institute of RAS (PDF_RU)

• Direct excitation of 1.14 µm clock transition in ultracold Tm atoms
  Golovizin Artem
  2017, Lebedev Physical Institute of RAS (PDF_RU)

• Secondary laser cooling of Tm atoms
  Vishnyakova Gulnara
  2016, Lebedev Physical Institute of RAS (PDF_RU)

• Laser cooling of Tm atoms
  Sukachev Denis
  2013, Lebedev Physical Institute of RAS (PDF_RU)

Master Theses

• Spectroscopy of 1.14 µm clock transition in laser-cooled Tm atoms
  Tregubov Dmitry
  2015, LPI RAS & MIPT (PDF_RU)

• Secondary cooling of Tm atoms
  Kalganova Elena
  2014, LPI RAS & MIPT (PDF_RU)

Publications

• Absolute frequencies of cooling and pumping transitions for Thulium optical lattice clock and cold gas studies
  Golovizin A, Tregubov D, Yaushev M, Mishin D, Provorchenko D, Kolachevsky N
  2023, Journal of Quantitative Spectroscopy and Radiative Transfer 306:108629 (DOI, BibTex)

• Deep Laser Cooling of Thulium Atoms to Sub-µK Temperatures in Magneto-Optical Trap
  Provorchenko D, Tregubov D, Mishin D, Yaushev M, Kryuchkov D, Sorokin V, Khabarova K, Golovizin A, Kolachevsky N
  2023, MDPI: Atoms 11(2):30 (DOI, BibTex)

• A Control Unit for the Thulium Optical Clock
  Golovizin AA, Soshenko VV, Tregubov DO, Yaushev MO, Agapov EM, Mishin DA
  2022, Instruments and Experimental Techniques 65(6):896-902 (DOI, BibTex)

• Effect of optical lattice field on characteristics of a clock transition in thulium atoms
  Mishin DA, Provorchenko DI, Tregubov DO, Golovizin AA, Khabarova KY, Sorokin VN, Kolachevsky NN
  2022, Quantum Electronics 52(6):505 (DOI, BibTex)

• Continuous operation of a bicolor thulium optical lattice clock
  Mishin D, Provorchenko D, Tregubov D, Kolachevsky N, Golovizin A
  2021, Applied Physics Express 14(11):112006 (DOI, BibTex)

• Compact magneto-optical trap of thulium atoms for a transportable optical clock
  Golovizin A, Tregubov D, Mishin D, Provorchenko D, Kolachevsky N
  2021, Optics Express 29(22):36734-44 (DOI, BibTex)

• Simultaneous bicolor interrogation in thulium optical clock providing very low systematic frequency shifts
  Golovizin AA, Tregubov DO, Fedorova ES, Mishin DA, Provorchenko DI, Khabarova KY, Sorokin VN, Kolachevsky NN
  2021, Nature communications 12(1):5171 (DOI, BibTex)

• Systematic Frequency Shifts in Bi-color Tm Optical Clock
  Golovizin A, Tregubov D, Fedorova E, Mishin D, Provorchenko D, Sorokin V, Khabarova K, Kolachevsky N
  2021, EFTF/IFCS pp. 1-3 (DOI, BibTex)

• Thulium Optical Lattice Clock With Zeeman-Insensitive Synthetic Clock Frequency
  Tregubov D, Golovizin A, Provorchenko D, Mishin D, Sorokin V, Khabarova K, Kolachevsky N
  2021, EFTF/IFCS pp. 1-4 (DOI, BibTex)

• Investigation of the transition at a wavelength of 506 nm, intended for deep cooling of thulium atoms
  Provorchenko DI, Tregubov DO, Mishin DA, Golovizin AA, Fedorova ES, Khabarova KY, Sorokin VN, Kolachevsky NN
  2021, Quantum Electronics 51(6):479 (DOI, BibTex)

• Clock transition excitation efficiency determination using an additional short clock π-pulse
  Provorchenko DI, Mishin DA, Fedorova ES, Tregubov DO, Golovizin AA, Sorokin VN, Khabarova KY, Kolachevsky NN
  2020, Journal of Physics: Conference Series 1692(1):012003 (DOI, BibTex)

• Simultaneous preparation of two initial clock states in a thulium optical clock
  Fedorova ES, Golovizin AA, Tregubov DO, Mishin DA, Provorchenko DI, Sorokin VN, Khabarova KY, Kolachevsky NN
  2020, Physical Review A 102(6):063114 (DOI, BibTex)

• Estimation of uncertainty budget for a thulium optical clock
  Golovizin AA, Tregubov DO, Fedorova ES, Mishin DA, Provorchenko DI, Sukachev DD, Khabarova KY, Sorokin VN, Kolachevsky NN
  2020, AIP Conference Proceedings 2241(1):020016 (DOI, BibTex)

• Detection of the clock transition in thulium atoms by using repump laser radiation
  Tregubov DO, Golovizin AA, Fedorova ES, Mishin DA, Provorchenko DI, Khabarova KY, Sorokin VN, Kolachevsky NN
  2020, Quantum Electronics 50(6):566 (DOI, BibTex)

• Rabi spectroscopy of the clock transition in thulium atoms in a one-dimensional optical lattice
  Fedorova ES, Tregubov DO, Golovizin AA, Mishin DA, Provorchenko DI,
  Khabarova KY, Sorokin VN, Kolachevsky NN
  2020, Quantum Electronics 50(3):220 (DOI, BibTex)

• Inner-Shell Clock Transition in Tm and Its Absolute Frequency Measurement.
  Golovizin A, Bushmakin V, Fedorov S, Fedorova E, Tregubov D, Sukachev D, Khabarova K, Sorokin V, Kolachevsky N.
  2019, Journal of Russian Laser Research 40:540–546 (DOI, BibTex)

• Magic wavelengths near 800 nm for precision spectroscopy of an inner-shell transition in thulium atoms.
  Tregubov DO, Golovizin AA, Fedorova ES, Khabarova KY, Sorokin VN, Kolachevsky NN.
  2019, Quantum Electronics 49(11):1028 (DOI, BibTex)

• Inner-shell clock transition in atomic thulium with a small blackbody radiation shift.
  Golovizin A, Fedorova E, Tregubov D, Sukachev D, Khabarova K, Sorokin V, Kolachevsky N.
  2019, Nature communications 10(1):1724
  (DOI, BibTex)

• Optical pumping of ultracold thulium atoms to a lower level of the clock transition and study of their depolarisation.
  Fedorova ES, Tregubov DO, Golovizin AA, Vishnyakova GA, Mishin DA, Provorchenko DI, Khabarova KY, Sorokin VN, Kolachevsky NN.
  2019, Quantum Electronics 49(5):418
  (DOI, BibTex)

• Trapping of thulium atoms in a cavity-enhanced optical lattice near a magic wavelength of 814.5 nm.
  Kalganova ES, Golovizin AA, Shevnin DO, Tregubov DO, Khabarova KY, Sorokin VN, Kolachevsky NN.
  2018, Quantum Electronics 48(5):415 (DOI, BibTex)

• Methods for determining the polarisability of the fine structure levels in the ground state of the thulium atom.
  Golovizin AA, Kalganova ES, Sukachev DD, Vishnyakova GA, Tregubov DO, Khabarova KY, Sorokin VN, Kolachevsky NN.
  2017, Quantum Electronics 47(5):479 (DOI, BibTex)

• Two-temperature momentum distribution in a thulium magneto-optical trap.
  Kalganova E, Prudnikov O, Vishnyakova G, Golovizin A, Tregubov D, Sukachev D, Khabarova K, Sorokin V, Kolachevsky N.
  2017, Physical Review A 96(3):033418 (DOI, BibTex)

• Measurement of the upper clock level lifetime in ¹⁶⁹Tm.
  Golovizin AA, Kalganova ES, Tregubov DO, Vishnyakova GA, Sukachev DD, Sorokin VN.
  2017, Journal of Physics: Conference Series 941(1):012114 (DOI, BibTex)

• Inner-shell magnetic dipole transition in Tm atoms: A candidate for optical lattice clocks.
  Sukachev D, Fedorov S, Tolstikhina I, Tregubov D, Kalganova E, Vishnyakova G, Golovizin A, Kolachevsky N, Khabarova K, Sorokin V.
  2016, Physical Review A 94(2):022512 (DOI, BibTex)

• Ultracold lanthanides: from optical clock to a quantum simulator.
  Vishnyakova GA, Golovizin AA, Kalganova ES, Sorokin VN, Sukachev DD, Tregubov DO, Khabarova KY, Kolachevsky NN.
  2016, Physics-Uspekhi 59(2):168 (DOI, BibTex)

• Detection of the clock transition (1.14 μm) in ultra-cold thulium atoms.
  Golovizin AA, Kalganova ES, Sukachev DD, Vishnyakova GA, Semerikov IY, Soshenko VV, Tregubov DO, Akimov AV, Kolachevsky NN, Khabarova KY, Sorokin VN.
  2015, Quantum Electronics 45(5):482 (DOI, BibTex)

• Improved measurement of the hyperfine structure of the laser cooling level 4f¹²(³H₆)5d_5/26s² (J=9/2) in ¹⁶⁹Tm.
  Fedorov SA, Vishnyakova GA, Kalganova ES, Sukachev DD, Golovizin AA, Tregubov DO, Khabarova KY, Akimov AV, Kolachevsky NN, Sorokin VN.
  2015, Applied Physics B 121(3):275-82 (DOI, BibTex)

• Secondary laser cooling and capturing of thulium atoms in traps.
  Sukachev DD, Kalganova ES, Sokolov AV, Fedorov SA, Vishnyakova GA, Akimov AV, Kolachevsky NN, Sorokin VN.
  2014, Quantum Electronics 44(6):515 (DOI, BibTex)

• Two-stage laser cooling and optical trapping of thulium atoms.
  Vishnyakova GA, Kalganova ES, Sukachev DD, Fedorov SA, Sokolov AV, Akimov AV, Kolachevsky NN, Sorokin VN.
  2014, Laser Physics 24(7):074018 (DOI, BibTex)

• Collimation of a thulium atomic beam by two-dimensional optical molasses.
  Sukachev DD, Kalganova ES, Sokolov AV, Savchenkov AV, Vishnyakova GA, Golovizin AA, Akimov AV, Kolachevsky NN, Sorokin VN. 2013, Quantum Electronics 43(4):374 (DOI, BibTex)

• Magnetic trap for thulium atoms.
  Sukachev DD, Sokolov AV, Chebakov KA, Akimov AV, Kolachevskii NN, Sorokin VN.
  2011, Quantum Electronics 1(8):765-8 (DOI, BibTex) https://doi.org/10.1070/QE2011v041n08ABEH014663

• Laser cooling of rare-earth atoms and precision measurements.
  Kolachevsky NN.
  2011, Physics-Uspekhi 54(8):863-70 (DOI, BibTex)

• Laser cooling of thulium atoms.
  Sukachev D, Chebakov K, Sokolov A, Akimov A, Kolachevsky N, Sorokin V.
  2011, Optics and Spectroscopy 111(4):633 (DOI, BibTex)

• Magneto-optical trap for thulium atoms.
  Sukachev D, Sokolov A, Chebakov K, Akimov A, Kanorsky S, Kolachevsky N, Sorokin V.
  2010, Physical Review A 82(1):011405 (DOI, BibTex)

• Sub-doppler laser cooling of thulium atoms in a magneto-optical trap.
  Sukachev D, Sokolov A, Chebakov K, Akimov A, Kolachevsky N, Sorokin V.
  2010, JETP letters 92(10):703-6 (DOI, BibTex)

• Zeeman slowing of thulium atoms.
  Chebakov K, Sokolov A, Akimov A, Sukachev D, Kanorsky S, Kolachevsky N, Sorokin V.
  2009, Optics letters 34(19):2955-7 (DOI, BibTex)

• Study of transitions in thulium atoms in the 410—420-nm range for laser cooling.
  Akimov AV, Chebakov KY, Tolstikhina IY, Sokolov AV, Rodionov PB, Kanorsky SI, Sorokin VN, Kolachevsky NN.
  2008, Quantum Electronics 38(10):961-8 (DOI, BibTex)

• High-precision laser spectroscopy of cold atoms and the search for the drift of the fine structure constant.
  Kolachevsky NN.
  2008, Physics-Uspekhi 51(11):1180-90 (DOI, BibTex)

• Blue laser cooling transitions in Tm I.
  Kolachevsky N, Akimov A, Tolstikhina I, Chebakov K, Sokolov A, Rodionov P, Kanorski S, Sorokin V.
  2007, Applied Physics B 89(4):589-94 (DOI, BibTex)