To be updated

    2024

    1. I Klincare, A Lapins, M Tamanis, R Ferber, A Zaitsevskii, E A Pazyuk and A V Stolyarov.
      Fourier-transform spectroscopy and global deperturbation treatment of the A1Σu+ and b3Πu states of K2 in the entire bound energy range.
      The Journal of Chemical Physics 160(6):064307, February 2024.
      URL, DOI BibTeX

      @article{10.1063/5.0188443,
      	author = "Klincare, I. and Lapins, A. and Tamanis, M. and Ferber, R. and Zaitsevskii, A. and Pazyuk, E. A. and Stolyarov, A. V.",
      	title = "{Fourier-transform spectroscopy and global deperturbation treatment of the A1Σu+ and b3Πu states of K2 in the entire bound energy range}",
      	journal = "The Journal of Chemical Physics",
      	volume = 160,
      	number = 6,
      	pages = 064307,
      	year = 2024,
      	month = 02,
      	abstract = "{Rotationally resolved Fourier-transform spectra of laser-induced fluorescence A1Su+~b3?u?X1Sg+ of K2 molecules were recorded and analyzed, yielding 4053 term values of the spinorbit (SO) coupled A ~ b complex of the 39K2 isotopologue with ~0.01 cm-1 accuracy. Their compilation with 1739 term values from previously published sources allowed them to cover the energy range [9955, 17 436] cm-1 from the bottom of the lower-lying b3?u state up to the vicinity of the atomic asymptote 4s2S12 + 4p2P12, with a rotational quantum number J ? [0, 149]. The experimental data were processed by a direct 6  6 coupled-channel (CC) deperturbation treatment, which accounted explicitly for both SO and electronic-rotational interactions between all six e-symmetry states: A1Su+(0u+), b3?u(0u+,1u,2u), c3Su(1u), and B1?u(1u). The initial parameters of the global deperturbation model have been estimated in the framework of abinitio electronic structure calculations applying multi-reference configuration-interaction and coupled-clusters methods. The interatomic potentials analytically defined for A and b states, as well as SO-splitting of the triplet b state and A ~ b SO-coupling functions, have been particularly refined to fit the 5792 term values of the 39K2 isotopologue, whereas the rest parameters were fixed on their abinitio values. The resulting mass-invariant parameters of the 6  6 CC model reproduced the overall rovibronic term energies of the A ~ b complex of 39K2 with accuracy, which is well within the experimental errors. The quality of the deperturbation analysis was independently confirmed by comparison with the present obtained 705 and 14 term values of respective 39K41K and 41K2 isotopologues, as well as by agreement between measured and predicted relative intensity distributions in long A ~ b ? X(vX) band progressions. This deperturbation analysis provided the refined dissociation energy Tdis = 17 474.569(5) cm-1 and the long-range coefficient C3S = 5.501(4)  105 cm-1 3 relevant to the non-relativistic atomic limit 4s + 4p. The derived Tdis yielded the accurate well depth De = 4450.910(5) cm-1 for the ground X1Sg+ state, whereas the new C3S value yielded the improved estimates for atomic K(4p2P12;32) radiative lifetime",
      	t12 = "",
      	issn = "0021-9606",
      	doi = "10.1063/5.0188443",
      	url = "https://doi.org/10.1063/5.0188443",
      	eprint = "https://pubs.aip.org/aip/jcp/article-pdf/doi/10.1063/5.0188443/19669905/064307\_1\_5.0188443.pdf"
      }
      
    2. Andrey I Bondarev, Maris Tamanis, Ruvin Ferber, Gönül Baıfmmode \mboxş\else ş\fiar, Sophie Kröger, Mikhail G Kozlov and Stephan Fritzsche.
      Comparison of theory and experiment for radiative characteristics in neutral thulium.
      Phys. Rev. A 109:012815, January 2024.
      URL, DOI BibTeX

      @article{PhysRevA.109.012815,
      	title = "Comparison of theory and experiment for radiative characteristics in neutral thulium",
      	author = {Bondarev, Andrey I. and Tamanis, Maris and Ferber, Ruvin and Ba\ifmmode \mbox{\c{s}}\else \c{s}\fi{}ar, G\"on\"ul and Kr\"oger, Sophie and Kozlov, Mikhail G. and Fritzsche, Stephan},
      	journal = "Phys. Rev. A",
      	volume = 109,
      	issue = 1,
      	pages = 012815,
      	numpages = 11,
      	year = 2024,
      	month = "Jan",
      	publisher = "American Physical Society",
      	doi = "10.1103/PhysRevA.109.012815",
      	url = "https://link.aps.org/doi/10.1103/PhysRevA.109.012815"
      }
      
    3. Suvechhya Lamichhane, Rupak Timalsina, Cody Schultz, Ilja Fescenko, Kapildeb Ambal, Sy-Hwang Liou, Rebecca Y Lai and Abdelghani Laraoui.
      Nitrogen-Vacancy Magnetic Relaxometry of Nanoclustered Cytochrome C Proteins.
      Nano Letters, January 2024.
      URL, DOI BibTeX

      @article{Lamichhane2024,
      	abstract = "Nitrogen-vacancy (NV) magnetometry offers an alternative tool to detect paramagnetic centers in cells with a favorable combination of magnetic sensitivity and spatial resolution. Here, we employ NV...",
      	author = "Lamichhane, Suvechhya and Timalsina, Rupak and Schultz, Cody and Fescenko, Ilja and Ambal, Kapildeb and Liou, Sy-Hwang and Lai, Rebecca Y. and Laraoui, Abdelghani",
      	doi = "10.1021/ACS.NANOLETT.3C03843",
      	issn = "1530-6984",
      	journal = "Nano Letters",
      	keywords = "Nitrogen-vacancy,cytochrome C,iron,paramagnetic,relaxometry",
      	month = "jan",
      	publisher = "American Chemical Society",
      	title = "{Nitrogen-Vacancy Magnetic Relaxometry of Nanoclustered Cytochrome C Proteins}",
      	url = "https://pubs.acs.org/doi/abs/10.1021/acs.nanolett.3c03843",
      	year = 2024
      }
      
    4. T Lutz, T Masuda, J P Hadden, I Fescenko, V M Acosta, W Tittel and P E Barclay.
      Effect of the nanopillar diameter on diamond silicon vacancy center spin lifetime.
      Opt. Mater. Express 14(1):226–235, January 2024.
      URL, DOI BibTeX

      @article{Lutz:24,
      	author = "T. Lutz and T. Masuda and J. P. Hadden and I. Fescenko and V. M. Acosta and W. Tittel and P. E. Barclay",
      	journal = "Opt. Mater. Express",
      	keywords = "Defect center materials; Diamond; Electron beam lithography; Material properties; Optical properties; Quantum technology",
      	number = 1,
      	pages = "226--235",
      	publisher = "Optica Publishing Group",
      	title = "Effect of the nanopillar diameter on diamond silicon vacancy center spin lifetime",
      	volume = 14,
      	month = "Jan",
      	year = 2024,
      	url = "https://opg.optica.org/ome/abstract.cfm?URI=ome-14-1-226",
      	doi = "10.1364/OME.503513",
      	abstract = "Color centers in diamond micro and nano-structures play an important role in a wide range of quantum technologies. However, obtaining high-quality color centers in small structures is challenging, as properties such as spin population lifetimes can be affected by the transition from a bulk to nanostructured crystal host. In this manuscript, we measure how population lifetimes of silicon vacancy center orbital states change when they are created in nanopillars whose diameters vary from 1 $\mu$m to 120 nm. We also discuss the influence of annealing methods on the silicon vacancy inhomogeneous linewidth. After selecting a sample with low inhomogeneous broadening and patterning it with nanopillars, we expected that restricted vibrational modes in the smallest structures could extend spin population lifetimes. However, we found that this effect was masked by other effects that reduced population lifetimes, suggesting that imperfections in the crystal lattice or surface damage caused by etching can influence SiV spins."
      }
      

    2023

    1. Yaser Silani, Janis Smits, Ilja Fescenko, Michael W Malone, Andrew F McDowell, Andrey Jarmola, Pauli Kehayias, Bryan A Richards, Nazanin Mosavian, Nathaniel Ristoff and Victor M Acosta.
      Nuclear quadrupole resonance spectroscopy with a femtotesla diamond magnetometer.
      Science Advances 9(24), June 2023.
      URL, DOI BibTeX

      @article{Silani2023,
      	doi = "10.1126/sciadv.adh3189",
      	url = "https://doi.org/10.1126/sciadv.adh3189",
      	year = 2023,
      	month = "jun",
      	publisher = "American Association for the Advancement of Science ({AAAS})",
      	volume = 9,
      	number = 24,
      	author = "Yaser Silani and Janis Smits and Ilja Fescenko and Michael W. Malone and Andrew F. McDowell and Andrey Jarmola and Pauli Kehayias and Bryan A. Richards and Nazanin Mosavian and Nathaniel Ristoff and Victor M. Acosta",
      	title = "Nuclear quadrupole resonance spectroscopy with a femtotesla diamond magnetometer",
      	journal = "Science Advances"
      }
      
    2. Suvechhya Lamichhane, Kayleigh A McElveen, Adam Erickson, Ilja Fescenko, Shuo Sun, Rupak Timalsina, Yinsheng Guo, Sy-Hwang Liou, Rebecca Y Lai and Abdelghani Laraoui.
      Nitrogen-Vacancy Magnetometry of Individual Fe-Triazole Spin Crossover Nanorods.
      ACS Nano 17(9):8694–8704, April 2023.
      URL, DOI BibTeX

      @article{Lamichhane2023,
      	doi = "10.1021/acsnano.3c01819",
      	url = "https://doi.org/10.1021/acsnano.3c01819",
      	year = 2023,
      	month = "apr",
      	publisher = "American Chemical Society ({ACS})",
      	volume = 17,
      	number = 9,
      	pages = "8694--8704",
      	author = "Suvechhya Lamichhane and Kayleigh A. McElveen and Adam Erickson and Ilja Fescenko and Shuo Sun and Rupak Timalsina and Yinsheng Guo and Sy-Hwang Liou and Rebecca Y. Lai and Abdelghani Laraoui",
      	title = "Nitrogen-Vacancy Magnetometry of Individual {Fe-Triazole} Spin Crossover Nanorods",
      	journal = "{ACS} Nano"
      }
      
    3. Arturs Mozers, Laima Busaite, Dace Osite, Florian Gahbauer and Marcis Auzinsh.
      Searching for alignment-to-orientation conversion in the ground state of atomic Cs with circularly polarized laser probe.
      Journal of Physics B: Atomic, Molecular and Optical Physics 56(4):045002, February 2023.
      URL, DOI BibTeX

      @article{Mozers_2023,
      	doi = "10.1088/1361-6455/acb1e5",
      	url = "https://dx.doi.org/10.1088/1361-6455/acb1e5",
      	year = 2023,
      	month = "feb",
      	publisher = "IOP Publishing",
      	volume = 56,
      	number = 4,
      	pages = 045002,
      	author = "Arturs Mozers and Laima Busaite and Dace Osite and Florian Gahbauer and Marcis Auzinsh",
      	title = "Searching for alignment-to-orientation conversion in the ground state of atomic Cs with circularly polarized laser probe",
      	journal = "Journal of Physics B: Atomic, Molecular and Optical Physics",
      	abstract = "In this study we explored the possibilities for observing the angular momentum alignment-to-orientation conversion (AOC) in the ground state of various alkali metals: K, Rb, Cs. For theoretical analysis we used a model that is based on the Optical Bloch equations for the density matrix. In our model we took into account the interaction of the laser light with all hyperfine levels, which are mixed as the magnetic field increases. The radiations coherence properties were also included. Finally, the results were averaged over the Doppler profile. Additionally we simulated signals where the ground- or the excited-state coherent processes were numerically switched off in order to determine the origins of the features of the obtained signals. We also performed experiments on Cs atoms with two laser beams: a linearly polarized Cs D 1 pump and circularly polarized Cs D 2 probe. We used the pump beam to create angular momentum alignment in the ground state and observed the transmission signal of the probe beam as we changed the magnetic field. A detailed analysis of the experimentally obtained transmission signal from a single circularly polarized probe laser component is provided. Finally, prospects for observing AOC experimentally are discussed, as well as experiments were even a weak AOC signal could lead to systematic errors."
      }
      
    4. Adam Erickson, Syed Qamar Abbas Shah, Ather Mahmood, Ilja Fescenko, Rupak Timalsina, Christian Binek and Abdelghani Laraoui.
      Nanoscale imaging of antiferromagnetic domains in epitaxial films of Cr2O3 via scanning diamond magnetic probe microscopy.
      RSC Advances 13(1):178–185, 2023.
      URL, DOI BibTeX

      @article{Erickson2023,
      	doi = "10.1039/d2ra06440e",
      	url = "https://doi.org/10.1039/d2ra06440e",
      	year = 2023,
      	publisher = "Royal Society of Chemistry ({RSC})",
      	volume = 13,
      	number = 1,
      	pages = "178--185",
      	author = "Adam Erickson and Syed Qamar Abbas Shah and Ather Mahmood and Ilja Fescenko and Rupak Timalsina and Christian Binek and Abdelghani Laraoui",
      	title = "{Nanoscale imaging of antiferromagnetic domains in epitaxial films of Cr2O3 via scanning diamond magnetic probe microscopy}",
      	journal = "{RSC} Advances"
      }
      
    5. Andris Berzins, Janis Smits, Andrejs Petruhins, Roberts Rimsa, Gatis Mozolevskis, Martins Zubkins and Ilja Fescenko.
      NV microscopy of thermally controlled stresses caused by thin Cr2O3 films.
      Optics Express 31(11):17950, 2023.
      URL, DOI BibTeX

      @article{Berzins2023,
      	doi = "10.1364/oe.489901",
      	url = "https://doi.org/10.1364/oe.489901",
      	year = 2023,
      	month = "",
      	publisher = "Optica Publishing Group",
      	volume = 31,
      	number = 11,
      	pages = 17950,
      	author = "Andris Berzins and Janis Smits and Andrejs Petruhins and Roberts Rimsa and Gatis Mozolevskis and Martins Zubkins and Ilja Fescenko",
      	title = "{NV microscopy of thermally controlled stresses caused by thin Cr2O3 films}",
      	journal = "Optics Express"
      }
      

    2022

    1. Andris Berzins, Hugo Grube, Einars Sprugis, Guntars Vaivars and Ilja Fescenko.
      Impact of Helium Ion Implantation Dose and Annealing on Dense Near-Surface Layers of NV Centers.
      Nanomaterials 12(13), 2022.
      URL, DOI BibTeX

      @article{Berzins2022a,
      	author = "Berzins, Andris and Grube, Hugo and Sprugis, Einars and Vaivars, Guntars and Fescenko, Ilja",
      	title = "Impact of Helium Ion Implantation Dose and Annealing on Dense Near-Surface Layers of {NV} Centers",
      	journal = "Nanomaterials",
      	volume = 12,
      	year = 2022,
      	number = 13,
      	article-number = 2234,
      	url = "https://www.mdpi.com/2079-4991/12/13/2234",
      	issn = "2079-4991",
      	doi = "10.3390/nano12132234"
      }
      
    2. Andris Berzins, Hugo Grube, Reinis Lazda, Marc A Hannig, Janis Smits and Ilja Fescenko.
      Tunable magnetic field source for magnetic field imaging microscopy.
      Ultramicroscopy 242:113624, 2022.
      URL, DOI BibTeX

      @article{Berzins2022b,
      	doi = "10.1016/j.ultramic.2022.113624",
      	url = "https://doi.org/10.1016/j.ultramic.2022.113624",
      	year = 2022,
      	month = "",
      	publisher = "Elsevier {BV}",
      	volume = 242,
      	pages = 113624,
      	author = "Andris Berzins and Hugo Grube and Reinis Lazda and Marc A. Hannig and Janis Smits and Ilja Fescenko",
      	title = "Tunable magnetic field source for magnetic field imaging microscopy",
      	journal = "Ultramicroscopy"
      }
      

    2021

    1. Reinis Lazda, Laima Busaite, Andris Berzins, Janis Smits, Florian Gahbauer, Marcis Auzinsh, Dmitry Budker and Ruvin Ferber.
      Cross-relaxation studies with optically detected magnetic resonances in nitrogen-vacancy centers in diamond in external magnetic field.
      Phys. Rev. B 103:134104, April 2021.
      URL, DOI BibTeX

      @article{PhysRevB.103.134104,
      	title = "Cross-relaxation studies with optically detected magnetic resonances in nitrogen-vacancy centers in diamond in external magnetic field",
      	author = "Lazda, Reinis and Busaite, Laima and Berzins, Andris and Smits, Janis and Gahbauer, Florian and Auzinsh, Marcis and Budker, Dmitry and Ferber, Ruvin",
      	journal = "Phys. Rev. B",
      	volume = 103,
      	issue = 13,
      	pages = 134104,
      	numpages = 11,
      	year = 2021,
      	month = "Apr",
      	publisher = "American Physical Society",
      	doi = "10.1103/PhysRevB.103.134104",
      	url = "https://link.aps.org/doi/10.1103/PhysRevB.103.134104"
      }
      

    2020

    1. Laima Busaite, Reinis Lazda, Andris Berzins, Marcis Auzinsh, Ruvin Ferber and Florian Gahbauer.
      Dynamic $^14\mathrmN$ nuclear spin polarization in nitrogen-vacancy centers in diamond.
      Phys. Rev. B 102:224101, December 2020.
      URL, DOI BibTeX

      @article{PhysRevB.102.224101,
      	title = "Dynamic $^{14}\mathrm{N}$ nuclear spin polarization in nitrogen-vacancy centers in diamond",
      	author = "Busaite, Laima and Lazda, Reinis and Berzins, Andris and Auzinsh, Marcis and Ferber, Ruvin and Gahbauer, Florian",
      	journal = "Phys. Rev. B",
      	volume = 102,
      	issue = 22,
      	pages = 224101,
      	numpages = 8,
      	year = 2020,
      	month = "Dec",
      	publisher = "American Physical Society",
      	doi = "10.1103/PhysRevB.102.224101",
      	url = "https://link.aps.org/doi/10.1103/PhysRevB.102.224101"
      }
      
    2. A Mozers, L Busaite, D Osite and M Auzinsh.
      Angular momentum alignment-to-orientation conversion in the ground state of Rb atoms at room temperature.
      Phys. Rev. A 102:053102, November 2020.
      URL, DOI BibTeX

      @article{PhysRevA.102.053102,
      	title = "Angular momentum alignment-to-orientation conversion in the ground state of Rb atoms at room temperature",
      	author = "Mozers, A. and Busaite, L. and Osite, D. and Auzinsh, M.",
      	journal = "Phys. Rev. A",
      	volume = 102,
      	issue = 5,
      	pages = 053102,
      	numpages = 11,
      	year = 2020,
      	month = "Nov",
      	publisher = "American Physical Society",
      	doi = "10.1103/PhysRevA.102.053102",
      	url = "https://link.aps.org/doi/10.1103/PhysRevA.102.053102"
      }
      
    3. L Zacs, Karlis Pukitis, Julius Sperauskas, Yakiv Pavlenko, M Schmidt and O Alksnis.
      HD 54361: evidence for the status of a low mass TP-AGB star.
      Astrophysics and Space Science 365:, February 2020.
      DOI BibTeX

      @article{Zacs2020,
      	author = "Zacs, L. and Pukitis, Karlis and Sperauskas, Julius and Pavlenko, Yakiv and Schmidt, M. and Alksnis, O.",
      	year = 2020,
      	month = 02,
      	pages = "",
      	title = "HD 54361: evidence for the status of a low mass TP-AGB star",
      	volume = 365,
      	journal = "Astrophysics and Space Science",
      	doi = "10.1007/s10509-020-3739-1"
      }
      
    4. Ilja Fescenko, Andrey Jarmola, Igor Savukov, Pauli Kehayias, Janis Smits, Joshua Damron, Nathaniel Ristoff, Nazanin Mosavian and Victor M Acosta.
      Diamond magnetometer enhanced by ferrite flux concentrators.
      Physical Review Research 2(2):023394, 2020.
      URL, DOI BibTeX

      @article{Fescenko2020a,
      	doi = "10.1103/physrevresearch.2.023394",
      	url = "https://doi.org/10.1103/physrevresearch.2.023394",
      	year = 2020,
      	month = "",
      	publisher = "American Physical Society ({APS})",
      	volume = 2,
      	number = 2,
      	pages = 023394,
      	author = "Ilja Fescenko and Andrey Jarmola and Igor Savukov and Pauli Kehayias and Janis Smits and Joshua Damron and Nathaniel Ristoff and Nazanin Mosavian and Victor M. Acosta",
      	title = "Diamond magnetometer enhanced by ferrite flux concentrators",
      	journal = "Physical Review Research"
      }
      

    2019

    1. A Znotins, A Kruzins, M Tamanis, R Ferber, E A Pazyuk, A V Stolyarov and A Zaitsevskii.
      Fourier-transform spectroscopy, relativistic electronic structure calculation, and coupled-channel deperturbation analysis of the fully mixed A1 Σu+ and b3 Πu states of Cs2.
      Phys. Rev. A 100:042507, October 2019.
      URL, DOI BibTeX

      @article{PhysRevA.100.042507,
      	title = "Fourier-transform spectroscopy, relativistic electronic structure calculation, and coupled-channel deperturbation analysis of the fully mixed A{1} Σ{u}{+} and b{3} Π{u} states of Cs{2}",
      	author = "Znotins, A. and Kruzins, A. and Tamanis, M. and Ferber, R. and Pazyuk, E. A. and Stolyarov, A. V. and Zaitsevskii, A.",
      	journal = "Phys. Rev. A",
      	volume = 100,
      	issue = 4,
      	pages = 042507,
      	numpages = 11,
      	year = 2019,
      	month = "Oct",
      	publisher = "American Physical Society",
      	doi = "10.1103/PhysRevA.100.042507",
      	url = "https://link.aps.org/doi/10.1103/PhysRevA.100.042507"
      }
      
    2. Janis Smits, Joshua T Damron, Pauli Kehayias, Andrew F McDowell, Nazanin Mosavian, Ilja Fescenko, Nathaniel Ristoff, Abdelghani Laraoui, Andrey Jarmola and Victor M Acosta.
      Two-dimensional nuclear magnetic resonance spectroscopy with a microfluidic diamond quantum sensor.
      Science Advances 5(7):eaaw7895, 2019.
      URL, DOI BibTeX

      @article{Smits2019,
      	author = "Smits, Janis and Damron, Joshua T. and Kehayias, Pauli and McDowell, Andrew F. and Mosavian, Nazanin and Fescenko, Ilja and Ristoff, Nathaniel and Laraoui, Abdelghani and Jarmola, Andrey and Acosta, Victor M.",
      	title = "Two-dimensional nuclear magnetic resonance spectroscopy with a microfluidic diamond quantum sensor",
      	volume = 5,
      	number = 7,
      	pages = "eaaw7895",
      	year = 2019,
      	doi = "10.1126/sciadv.aaw7895",
      	publisher = "American Association for the Advancement of Science",
      	url = "https://advances.sciencemag.org/content/5/7/eaaw7895",
      	eprint = "https://advances.sciencemag.org/content/5/7/eaaw7895.full.pdf",
      	journal = "Science Advances"
      }
      
    3. B Ozdalgic, G Başar, F Güzelcimen, I K Oztürk, T Ak, S Bilir, M Tamanis, R Ferber and S Kröger.
      Line Identification of Atomic and Ionic Spectra of Holmium in the Visible Spectral Range. II. Spectrum of Ho smlii and Ho smliii.
      Astrophysical Journal, Supplement Series 240(2), 2019.
      URL, DOI BibTeX

      @article{Ozdalgic2019_b,
      	author = "Ozdalgic, B. and Başar, G. and Güzelcimen, F. and Oztürk, I.K. and Ak, T. and Bilir, S. and Tamanis, M. and Ferber, R. and Kröger, S.",
      	title = "Line Identification of Atomic and Ionic Spectra of Holmium in the Visible Spectral Range. II. Spectrum of Ho smlii and Ho smliii",
      	journal = "Astrophysical Journal, Supplement Series",
      	year = 2019,
      	volume = 240,
      	number = 2,
      	doi = "10.3847/1538-4365/aaf9b5",
      	art_number = 28,
      	note = "cited By 5",
      	url = "https://www.scopus.com/inward/record.uri?eid=2-s2.0-85062591525&doi=10.3847%2f1538-4365%2faaf9b5&partnerID=40&md5=f538a3fa8ca1a47c2b09bb9740ec558c",
      	document_type = "Article",
      	source = "Scopus"
      }
      
    4. B Ozdalgic, F Güzelcimen, I K Oztürk, S Kröger, A Kruzins, M Tamanis, R Ferber and G Başar.
      Line Identification of Atomic and Ionic Spectra of Holmium in the Visible Spectral Range. I. Spectrum of Ho i.
      Astrophysical Journal, Supplement Series 240(2), 2019.
      URL, DOI BibTeX

      @article{Ozdalgic2019_a,
      	author = "Ozdalgic, B. and Güzelcimen, F. and Oztürk, I.K. and Kröger, S. and Kruzins, A. and Tamanis, M. and Ferber, R. and Başar, G.",
      	title = "Line Identification of Atomic and Ionic Spectra of Holmium in the Visible Spectral Range. I. Spectrum of Ho i",
      	journal = "Astrophysical Journal, Supplement Series",
      	year = 2019,
      	volume = 240,
      	number = 2,
      	doi = "10.3847/1538-4365/aaf9b2",
      	art_number = 27,
      	note = "cited By 5",
      	url = "https://www.scopus.com/inward/record.uri?eid=2-s2.0-85062608781&doi=10.3847%2f1538-4365%2faaf9b2&partnerID=40&md5=f7579edf8a5c1c6205e0dcaf19e020fc",
      	document_type = "Article",
      	source = "Scopus"
      }
      
    5. I Fescenko, A Laraoui, J Smits, N Mosavian, P Kehayias, J Seto, L Bougas, A Jarmola and V M Acosta.
      Diamond Magnetic Microscopy of Malarial Hemozoin Nanocrystals.
      Physical Review Applied 11(3), 2019.
      URL, DOI BibTeX

      @article{Fescenko2019,
      	author = "Fescenko, I. and Laraoui, A. and Smits, J. and Mosavian, N. and Kehayias, P. and Seto, J. and Bougas, L. and Jarmola, A. and Acosta, V.M.",
      	title = "Diamond Magnetic Microscopy of Malarial Hemozoin Nanocrystals",
      	journal = "Physical Review Applied",
      	year = 2019,
      	volume = 11,
      	number = 3,
      	doi = "10.1103/PhysRevApplied.11.034029",
      	art_number = 034029,
      	note = "cited By 5",
      	url = "https://www.scopus.com/inward/record.uri?eid=2-s2.0-85062967722&doi=10.1103%2fPhysRevApplied.11.034029&partnerID=40&md5=32faa56eb386da9d75b6beb8d3aeae6e",
      	document_type = "Article",
      	source = "Scopus"
      }
      
    6. M Auzinsh, A Berzins, D Budker, L Busaite, R Ferber, F Gahbauer, R Lazda, A Wickenbrock and H Zheng.
      Hyperfine level structure in nitrogen-vacancy centers near the ground-state level anticrossing.
      Physical Review B 100(7), 2019.
      URL, DOI BibTeX

      @article{Auzinsh2019,
      	author = "Auzinsh, M. and Berzins, A. and Budker, D. and Busaite, L. and Ferber, R. and Gahbauer, F. and Lazda, R. and Wickenbrock, A. and Zheng, H.",
      	title = "Hyperfine level structure in nitrogen-vacancy centers near the ground-state level anticrossing",
      	journal = "Physical Review B",
      	year = 2019,
      	volume = 100,
      	number = 7,
      	doi = "10.1103/PhysRevB.100.075204",
      	art_number = 075204,
      	note = "cited By 0",
      	url = "https://www.scopus.com/inward/record.uri?eid=2-s2.0-85072090582&doi=10.1103%2fPhysRevB.100.075204&partnerID=40&md5=f064918decd2d28b6094e2c0c9371b09",
      	document_type = "Article",
      	source = "Scopus"
      }
      

    2018

    1. I Klincare, A Kruzins, M Tamanis, R Ferber, E A Pazyuk and A V Stolyarov.
      Fourier-transform spectroscopy, direct potential fit, and electronic structure calculations on the entirely perturbed (4)1Π state of RbCs.
      Phys. Rev. A 98:062517, December 2018.
      URL, DOI BibTeX

      @article{PhysRevA.98.062517,
      	title = "Fourier-transform spectroscopy, direct potential fit, and electronic structure calculations on the entirely perturbed (4){1}Π state of RbCs",
      	author = "Klincare, I. and Kruzins, A. and Tamanis, M. and Ferber, R. and Pazyuk, E. A. and Stolyarov, A. V.",
      	journal = "Phys. Rev. A",
      	volume = 98,
      	issue = 6,
      	pages = 062517,
      	numpages = 10,
      	year = 2018,
      	month = "Dec",
      	publisher = "American Physical Society",
      	doi = "10.1103/PhysRevA.98.062517",
      	url = "https://link.aps.org/doi/10.1103/PhysRevA.98.062517"
      }
      

    2017

    1. Huijie Zheng, Georgios Chatzidrosos, Arne Wickenbrock, Lykourgos Bougas, Reinis Lazda, Andris Berzins, Florian Helmuth Gahbauer, Marcis Auzinsh, Ruvin Ferber and Dmitry Budker.
      Level anti-crossing magnetometry with color centers in diamond.
      In Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series 10119. February 2017, 101190X.
      DOI BibTeX

      @inproceedings{2017SPIE10119E..0XZ,
      	author = "{Zheng}, Huijie and {Chatzidrosos}, Georgios and {Wickenbrock}, Arne and {Bougas}, Lykourgos and {Lazda}, Reinis and {Berzins}, Andris and {Gahbauer}, Florian Helmuth and {Auzinsh}, Marcis and {Ferber}, Ruvin and {Budker}, Dmitry",
      	title = "{Level anti-crossing magnetometry with color centers in diamond}",
      	keywords = "Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics",
      	booktitle = "Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series",
      	year = 2017,
      	series = "Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series",
      	volume = 10119,
      	month = "Feb",
      	eid = "101190X",
      	pages = "101190X",
      	doi = "10.1117/12.2261160",
      	archiveprefix = "arXiv",
      	eprint = "1701.06838",
      	primaryclass = "quant-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2017SPIE10119E..0XZ",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      
    2. Pauli Kehayias, Andrey Jarmola, Nazanin Mosavian, Ilja Fescenko, Francisco M Benito, Abdelghani Laraoui, Janis Smits, Lykourgos Bougas, Dmitry Budker, Alexander Neumann, Steve R J Brueck and Victor M Acosta.
      Solution nuclear magnetic resonance spectroscopy on a nanostructured diamond chip.
      Nature Communications 8(1):188, 2017.
      DOI BibTeX

      @article{Kehayias2017,
      	author = "Kehayias, Pauli and Jarmola, Andrey and Mosavian, Nazanin and Fescenko, Ilja and Benito, Francisco M. and Laraoui, Abdelghani and Smits, Janis and Bougas, Lykourgos and Budker, Dmitry and Neumann, Alexander and Brueck, Steve R. J. and Acosta, Victor M.",
      	doi = "10.1038/s41467-017-00266-4",
      	issn = 20411723,
      	journal = "Nature Communications",
      	number = 1,
      	pages = 188,
      	title = "{Solution nuclear magnetic resonance spectroscopy on a nanostructured diamond chip}",
      	volume = 8,
      	year = 2017
      }
      

    2016

    1. M Auzinsh, A Berzins, R Ferber, F Gahbauer and U Kalnins.
      Spatial dynamics of laser-induced fluorescence in an intense laser beam: An experimental and theoretical study with alkali-metal atoms.
      Physical Review A 93:033403, March 2016.
      DOI BibTeX

      @article{2016PhRvA..93c3403A,
      	author = "{Auzinsh}, M. and {Berzins}, A. and {Ferber}, R. and {Gahbauer}, F. and {Kalnins}, U.",
      	title = "{Spatial dynamics of laser-induced fluorescence in an intense laser beam: An experimental and theoretical study with alkali-metal atoms}",
      	journal = "Physical Review A",
      	keywords = "Physics - Atomic Physics",
      	year = 2016,
      	month = "Mar",
      	volume = 93,
      	eid = 033403,
      	pages = 033403,
      	doi = "10.1103/PhysRevA.93.033403",
      	archiveprefix = "arXiv",
      	eprint = "1510.07518",
      	primaryclass = "physics.atom-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2016PhRvA..93c3403A",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      
    2. Janis Smits, Andris Berzins, Florian H Gahbauer, Ruvin Ferber, Kaspars Erglis, Andrejs Cebers and Juris Prikulis.
      Estimating the magnetic moment of microscopic magnetic sources from their magnetic field distribution in a layer of nitrogen-vacancy (NV) centres in diamond.
      European Physical Journal Applied Physics 73:20701, February 2016.
      DOI BibTeX

      @article{2016EPJAP..7320701S,
      	author = "{Smits}, Janis and {Berzins}, Andris and {Gahbauer}, Florian H. and {Ferber}, Ruvin and {Erglis}, Kaspars and {Cebers}, Andrejs and {Prikulis}, Juris",
      	title = "{Estimating the magnetic moment of microscopic magnetic sources from their magnetic field distribution in a layer of nitrogen-vacancy (NV) centres in diamond}",
      	journal = "European Physical Journal Applied Physics",
      	year = 2016,
      	month = "Feb",
      	volume = 73,
      	eid = 20701,
      	pages = 20701,
      	doi = "10.1051/epjap/2016150449",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2016EPJAP..7320701S",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      
    3. Vladimir Dolgovskiy, Ilja Fescenko, Noboru Sekiguchi, Simone Colombo, Victor Lebedev, Jiawan Zhang and Antoine Weis.
      A magnetic source imaging camera.
      Applied Physics Letters 109:023505, 2016.
      URL, DOI BibTeX

      @article{Dolgovskiy2016,
      	author = "Dolgovskiy, Vladimir and Fescenko, Ilja and Sekiguchi, Noboru and Colombo, Simone and Lebedev, Victor and Zhang, Jiawan and Weis, Antoine",
      	journal = "Applied Physics Letters",
      	pages = 023505,
      	title = "{A magnetic source imaging camera}",
      	url = "https://aip.scitation.org/doi/full/10.1063/1.4958700",
      	volume = 109,
      	year = 2016,
      	doi = "10.1063/1.4958700"
      }
      

    2015

    1. A Jarmola, A Berzins, J Smits, K Smits, J Prikulis, F Gahbauer, R Ferber, D Erts, M Auzinsh and D Budker.
      Longitudinal spin-relaxation in nitrogen-vacancy centers in electron irradiated diamond.
      Applied Physics Letters 107:242403, December 2015.
      DOI BibTeX

      @article{2015ApPhL.107x2403J,
      	author = "{Jarmola}, A. and {Berzins}, A. and {Smits}, J. and {Smits}, K. and {Prikulis}, J. and {Gahbauer}, F. and {Ferber}, R. and {Erts}, D. and {Auzinsh}, M. and {Budker}, D.",
      	title = "{Longitudinal spin-relaxation in nitrogen-vacancy centers in electron irradiated diamond}",
      	journal = "Applied Physics Letters",
      	keywords = "Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science",
      	year = 2015,
      	month = "Dec",
      	volume = 107,
      	eid = 242403,
      	pages = 242403,
      	doi = "10.1063/1.4937489",
      	archiveprefix = "arXiv",
      	eprint = "1511.06189",
      	primaryclass = "quant-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2015ApPhL.107x2403J",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      
    2. M Auzinsh, A Berzins, R Ferber, F Gahbauer, L Kalvans, A Mozers and A Spiss.
      {Alignment-to-orientation conversion in a magnetic field at nonlinear excitation of the D$_2$ line of rubidium: Experiment and theory}.
      Physical Review A 91:053418, May 2015.
      DOI BibTeX

      @article{2015PhRvA..91e3418A,
      	author = "{Auzinsh}, M. and {Berzins}, A. and {Ferber}, R. and {Gahbauer}, F. and {Kalvans}, L. and {Mozers}, A. and {Spiss}, A.",
      	title = "{Alignment-to-orientation conversion in a magnetic field at nonlinear excitation of the D$_{2}$ line of rubidium: Experiment and theory}",
      	journal = "Physical Review A",
      	keywords = "32.80.Xx, 32.60.+i, Level crossing and optical pumping, Zeeman and Stark effects, Physics - Atomic Physics",
      	year = 2015,
      	month = "May",
      	volume = 91,
      	eid = 053418,
      	pages = 053418,
      	doi = "10.1103/PhysRevA.91.053418",
      	archiveprefix = "arXiv",
      	eprint = "1503.03334",
      	primaryclass = "physics.atom-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2015PhRvA..91e3418A",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      
    3. M Auzinsh, A Berzins, R Ferber, F Gahbauer, U Kalnins, L Kalvans, R Rundans and D Sarkisyan.
      {Relaxation mechanisms affecting magneto-optical resonances in an extremely thin cell: Experiment and theory for the cesium D$_1$ line}.
      Physical Review A 91:023410, February 2015.
      DOI BibTeX

      @article{2015PhRvA..91b3410A,
      	author = "{Auzinsh}, M. and {Berzins}, A. and {Ferber}, R. and {Gahbauer}, F. and {Kalnins}, U. and {Kalvans}, L. and {Rundans}, R. and {Sarkisyan}, D.",
      	title = "{Relaxation mechanisms affecting magneto-optical resonances in an extremely thin cell: Experiment and theory for the cesium D$_{1}$ line}",
      	journal = "Physical Review A",
      	keywords = "32.60.+i, 32.80.Xx, 32.10.Fn, Zeeman and Stark effects, Level crossing and optical pumping, Fine and hyperfine structure, Physics - Atomic Physics",
      	year = 2015,
      	month = "Feb",
      	volume = 91,
      	eid = 023410,
      	pages = 023410,
      	doi = "10.1103/PhysRevA.91.023410",
      	archiveprefix = "arXiv",
      	eprint = "1411.2750",
      	primaryclass = "physics.atom-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2015PhRvA..91b3410A",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      

    2014

    1. Ilja Fescenko and Antoine Weis.
      Imaging magnetic scalar potentials by laser-induced fluorescence from bright and dark atoms.
      Journal of Physics D: Applied Physics 47(23):235001, 2014.
      DOI BibTeX

      @article{Fescenko2014,
      	title = "Imaging magnetic scalar potentials by laser-induced fluorescence from bright and dark atoms",
      	author = "Fescenko, Ilja and Weis, Antoine",
      	journal = "Journal of Physics D: Applied Physics",
      	volume = 47,
      	number = 23,
      	pages = 235001,
      	year = 2014,
      	publisher = "IOP Publishing",
      	doi = "10.1088/0022-3727/47/23/235001"
      }
      

    2013

    1. Marcis Auzinsh, Andris Berzins, Ruvin Ferber, Florian Gahbauer, Linards Kalvans and Arturs Mozers.
      Coherent and incoherent processes responsible for various characteristics of nonlinear magneto-optical signals in rubidium atoms.
      Journal of Physics B Atomic Molecular Physics 46:185003, September 2013.
      DOI BibTeX

      @article{2013JPhB...46r5003A,
      	author = "{Auzinsh}, Marcis and {Berzins}, Andris and {Ferber}, Ruvin and {Gahbauer}, Florian and {Kalvans}, Linards and {Mozers}, Arturs",
      	title = "{Coherent and incoherent processes responsible for various characteristics of nonlinear magneto-optical signals in rubidium atoms}",
      	journal = "Journal of Physics B Atomic Molecular Physics",
      	keywords = "Physics - Atomic Physics",
      	year = 2013,
      	month = "Sep",
      	volume = 46,
      	eid = 185003,
      	pages = 185003,
      	doi = "10.1088/0953-4075/46/18/185003",
      	archiveprefix = "arXiv",
      	eprint = "1304.3695",
      	primaryclass = "physics.atom-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2013JPhB...46r5003A",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      
    2. M Auzinsh, A Berzins, R Ferber, F Gahbauer, L Kalvans, A Mozers and A Spiss.
      Dependence of the shapes of nonzero-field level-crossing signals in rubidium atoms on the laser frequency and power density.
      Physical Review A 87:033412, March 2013.
      DOI BibTeX

      @article{2013PhRvA..87c3412A,
      	author = "{Auzinsh}, M. and {Berzins}, A. and {Ferber}, R. and {Gahbauer}, F. and {Kalvans}, L. and {Mozers}, A. and {Spiss}, A.",
      	title = "{Dependence of the shapes of nonzero-field level-crossing signals in rubidium atoms on the laser frequency and power density}",
      	journal = "Physical Review A",
      	keywords = "32.60.+i, 32.80.Xx, Zeeman and Stark effects, Level crossing and optical pumping, Physics - Atomic Physics",
      	year = 2013,
      	month = "Mar",
      	volume = 87,
      	eid = 033412,
      	pages = 033412,
      	doi = "10.1103/PhysRevA.87.033412",
      	archiveprefix = "arXiv",
      	eprint = "1301.0548",
      	primaryclass = "physics.atom-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2013PhRvA..87c3412A",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      
    3. Ilja Fescenko, Paul Knowles, Antoine Weis and Evelina Breschi.
      A Bell-Bloom experiment with polarization-modulated light of arbitrary duty cycle.
      Optics Express 21(13):15121–15130, 2013.
      DOI BibTeX

      @article{Fescenko2013,
      	title = "{A Bell-Bloom experiment with polarization-modulated light of arbitrary duty cycle}",
      	author = "Fescenko, Ilja and Knowles, Paul and Weis, Antoine and Breschi, Evelina",
      	journal = "Optics Express",
      	volume = 21,
      	number = 13,
      	pages = "15121--15130",
      	year = 2013,
      	publisher = "Optical Society of America",
      	doi = "10.1364/OE.21.015121"
      }
      

    2012

    1. M Auzinsh, A Berzins, R Ferber, F Gahbauer, L Kalvans, A Mozers and D Opalevs.
      {Conversion of bright magneto-optical resonances into dark resonances at fixed laser frequency for D$_2$ excitation of atomic rubidium}.
      Physical Review A 85:033418, March 2012.
      DOI BibTeX

      @article{2012PhRvA..85c3418A,
      	author = "{Auzinsh}, M. and {Berzins}, A. and {Ferber}, R. and {Gahbauer}, F. and {Kalvans}, L. and {Mozers}, A. and {Opalevs}, D.",
      	title = "{Conversion of bright magneto-optical resonances into dark resonances at fixed laser frequency for D$_{2}$ excitation of atomic rubidium}",
      	journal = "Physical Review A",
      	keywords = "32.80.Xx, 42.50.Gy, 32.60.+i, Level crossing and optical pumping, Effects of atomic coherence on propagation absorption and amplification of light, electromagnetically induced transparency and absorption, Zeeman and Stark effects, Physics - Atomic Physics",
      	year = 2012,
      	month = "Mar",
      	volume = 85,
      	eid = 033418,
      	pages = 033418,
      	doi = "10.1103/PhysRevA.85.033418",
      	archiveprefix = "arXiv",
      	eprint = "1111.6432",
      	primaryclass = "physics.atom-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2012PhRvA..85c3418A",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      
    2. Marcis Auzinsh, Ruvin Ferber, Ilja Fescenko, Linards Kalvans and Maris Tamanis.
      Nonlinear magneto-optical resonances for systems with J $\sim100$ observed in K$_2$ molecules.
      Physical Review A 85(1):013421, 2012.
      DOI BibTeX

      @article{Auzinsh2012,
      	title = "Nonlinear magneto-optical resonances for systems with {J} $\sim100$ observed in {K}$_2$ molecules",
      	author = "Auzinsh, Marcis and Ferber, Ruvin and Fescenko, Ilja and Kalvans, Linards and Tamanis, Maris",
      	journal = "Physical Review A",
      	volume = 85,
      	number = 1,
      	pages = 013421,
      	year = 2012,
      	publisher = "American Physical Society",
      	doi = "10.1103/PhysRevA.85.013421"
      }
      
    3. Ilja Fescenko, Janis Alnis, Albert Schliesser, Christine Y Wang, Tobias J Kippenberg and Theodor W Hänsch.
      Dual-mode temperature compensation technique for laser stabilization to a crystalline whispering gallery mode resonator.
      Optics Express 20(17):19185–19193, 2012.
      DOI BibTeX

      @article{Fescenko2012,
      	title = "Dual-mode temperature compensation technique for laser stabilization to a crystalline whispering gallery mode resonator",
      	author = {Fescenko, Ilja and Alnis, Janis and Schliesser, Albert and Wang, Christine Y. and Kippenberg, Tobias J. and H{\"a}nsch, Theodor W.},
      	journal = "Optics Express",
      	volume = 20,
      	number = 17,
      	pages = "19185--19193",
      	year = 2012,
      	publisher = "Optical Society of America",
      	doi = "10.1364/OE.20.019185"
      }
      

    2011

    1. M Auzinsh, R Ferber, F Gahbauer, A Jarmola, L Kalvans and A Atvars.
      Cascade coherence transfer and magneto-optical resonances at 455 nm excitation of cesium.
      Optics Communications 284:2863-2871, June 2011.
      DOI BibTeX

      @article{2011OptCo.284.2863A,
      	author = "{Auzinsh}, M. and {Ferber}, R. and {Gahbauer}, F. and {Jarmola}, A. and {Kalvans}, L. and {Atvars}, A.",
      	title = "{Cascade coherence transfer and magneto-optical resonances at 455 nm excitation of cesium}",
      	journal = "Optics Communications",
      	keywords = "Physics - Atomic Physics",
      	year = 2011,
      	month = "Jun",
      	volume = 284,
      	pages = "2863-2871",
      	doi = "10.1016/j.optcom.2011.01.088",
      	archiveprefix = "arXiv",
      	eprint = "1010.2123",
      	primaryclass = "physics.atom-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2011OptCo.284.2863A",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      

    2010

    1. L Kalvans, M Auzinsh, R Ferber, F Gahbauer, A Jarmola, A Papoyan and D Sarkisyan.
      {Modelling Magneto-Optical Resonances in Atomic Rubidium at D$_1$ Excitation in Extremely Thin Cells while Maintaining a Self-Consistent Set of Theoretical Parameters}.
      In Gagik Yu Kryuchkyan, Gagik G Gurzadyan and Aram V Papoyan (eds.). Modern Optics and Photonics Atoms and Structured Media. June 2010, 289-303.
      DOI BibTeX

      @inproceedings{2010mopa.conf..289K,
      	author = "{Kalvans}, L. and {Auzinsh}, M. and {Ferber}, R. and {Gahbauer}, F. and {Jarmola}, A. and {Papoyan}, A. and {Sarkisyan}, D.",
      	title = "{Modelling Magneto-Optical Resonances in Atomic Rubidium at D$_{1}$ Excitation in Extremely Thin Cells while Maintaining a Self-Consistent Set of Theoretical Parameters}",
      	keywords = "Magneto-optical resonances",
      	booktitle = "Modern Optics and Photonics Atoms and Structured Media",
      	year = 2010,
      	editor = "{Kryuchkyan}, Gagik Yu and {Gurzadyan}, Gagik G. and {Papoyan}, Aram V.",
      	month = "Jun",
      	pages = "289-303",
      	doi = "10.1142/9789814313278_0018",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2010mopa.conf..289K",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      
    2. M Auzinsh, R Ferber, F Gahbauer, A Jarmola, L Kalvans, A Papoyan and D Sarkisyan.
      {Nonlinear magneto-optical resonances at D$_1$ excitation of Rb85 and Rb87 in an extremely thin cell}.
      Physical Review A 81:033408, March 2010.
      DOI BibTeX

      @article{2010PhRvA..81c3408A,
      	author = "{Auzinsh}, M. and {Ferber}, R. and {Gahbauer}, F. and {Jarmola}, A. and {Kalvans}, L. and {Papoyan}, A. and {Sarkisyan}, D.",
      	title = "{Nonlinear magneto-optical resonances at D$_{1}$ excitation of Rb85 and Rb87 in an extremely thin cell}",
      	journal = "Physical Review A",
      	keywords = "32.60.+i, 32.80.Xx, 32.10.Fn, Zeeman and Stark effects, Level crossing and optical pumping, Fine and hyperfine structure, Physics - Atomic Physics",
      	year = 2010,
      	month = "Mar",
      	volume = 81,
      	eid = 033408,
      	pages = 033408,
      	doi = "10.1103/PhysRevA.81.033408",
      	archiveprefix = "arXiv",
      	eprint = "0909.5081",
      	primaryclass = "physics.atom-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2010PhRvA..81c3408A",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      

    2009

    1. M Auzinsh, R Ferber, F Gahbauer, A Jarmola and L Kalvans.
      {Nonlinear magneto-optical resonances at D$_1$ excitation of R85b and R87b for partially resolved hyperfine F levels}.
      Physical Review A 79:053404, May 2009.
      DOI BibTeX

      @article{2009PhRvA..79e3404A,
      	author = "{Auzinsh}, M. and {Ferber}, R. and {Gahbauer}, F. and {Jarmola}, A. and {Kalvans}, L.",
      	title = "{Nonlinear magneto-optical resonances at D$_{1}$ excitation of R85b and R87b for partially resolved hyperfine F levels}",
      	journal = "Physical Review A",
      	keywords = "32.60.+i, 32.80.Xx, 32.10.Fn, Zeeman and Stark effects, Level crossing and optical pumping, Fine and hyperfine structure, Physics - Atomic Physics",
      	year = 2009,
      	month = "May",
      	volume = 79,
      	eid = 053404,
      	pages = 053404,
      	doi = "10.1103/PhysRevA.79.053404",
      	archiveprefix = "arXiv",
      	eprint = "0903.0524",
      	primaryclass = "physics.atom-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2009PhRvA..79e3404A",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      

    2008

    1. M Auzinsh, R Ferber, F Gahbauer, A Jarmola and L Kalvans.
      {F -resolved magneto-optical resonances in the D$_1$ excitation of cesium: Experiment and theory}.
      Physical Review A 78:013417, July 2008.
      DOI BibTeX

      @article{2008PhRvA..78a3417A,
      	author = "{Auzinsh}, M. and {Ferber}, R. and {Gahbauer}, F. and {Jarmola}, A. and {Kalvans}, L.",
      	title = "{F -resolved magneto-optical resonances in the D$_{1}$ excitation of cesium: Experiment and theory}",
      	journal = "Physical Review A",
      	keywords = "32.60.+i, 32.80.Xx, 32.10.Fn, Zeeman and Stark effects, Level crossing and optical pumping, Fine and hyperfine structure, Physics - Atomic Physics",
      	year = 2008,
      	month = "Jul",
      	volume = 78,
      	eid = 013417,
      	pages = 013417,
      	doi = "10.1103/PhysRevA.78.013417",
      	archiveprefix = "arXiv",
      	eprint = "0803.0201",
      	primaryclass = "physics.atom-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2008PhRvA..78a3417A",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      

    2007

    1. M Auzinsh, K Blushs, R Ferber, F Gahbauer, A Jarmola and M Tamanis.
      Level-crossing spectroscopy of the 7, 9, and 10D states of Cs in an external electric field.
      In 14th International School on Quantum Electronics: Laser Physics and Applications 6604. March 2007, 66040F.
      DOI BibTeX

      @inproceedings{2007SPIE.6604E..0FA,
      	author = "{Auzinsh}, M. and {Blushs}, K. and {Ferber}, R. and {Gahbauer}, F. and {Jarmola}, A. and {Tamanis}, M.",
      	title = "{Level-crossing spectroscopy of the 7, 9, and 10D states of Cs in an external electric field}",
      	booktitle = "14th International School on Quantum Electronics: Laser Physics and Applications",
      	year = 2007,
      	series = "Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series",
      	volume = 6604,
      	month = "Mar",
      	eid = "66040F",
      	pages = "66040F",
      	doi = "10.1117/12.726885",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2007SPIE.6604E..0FA",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      
    2. M Auzinsh, K Bluss, R Ferber, F Gahbauer, A Jarmola, M ~S Safronova, U ~I Safronova and M Tamanis.
      {Level-crossing spectroscopy of the 7, 9, and 10D$_5/2$ states of Cs133 and validation of relativistic many-body calculations of the polarizabilities and hyperfine constants}.
      Physical Review A 75:022502, February 2007.
      DOI BibTeX

      @article{2007PhRvA..75b2502A,
      	author = "{Auzinsh}, M. and {Bluss}, K. and {Ferber}, R. and {Gahbauer}, F. and {Jarmola}, A. and {Safronova}, M.~S. and {Safronova}, U.~I. and {Tamanis}, M.",
      	title = "{Level-crossing spectroscopy of the 7, 9, and 10D$_{5/2}$ states of Cs133 and validation of relativistic many-body calculations of the polarizabilities and hyperfine constants}",
      	journal = "Physical Review A",
      	keywords = "32.10.Dk, 32.10.Fn, 31.15.Ar, 31.25.Jf, Electric and magnetic moments polarizability, Fine and hyperfine structure, Ab initio calculations, Electron correlation calculations for atoms and ions: excited states, Physics - Atomic Physics",
      	year = 2007,
      	month = "Feb",
      	volume = 75,
      	eid = 022502,
      	pages = 022502,
      	doi = "10.1103/PhysRevA.75.022502",
      	archiveprefix = "arXiv",
      	eprint = "physics/0611072",
      	primaryclass = "physics.atom-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2007PhRvA..75b2502A",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      

    2006

    1. M Auzinsh, K Blushs, R Ferber, F Gahbauer, A Jarmola and M Tamanis.
      Electric field induced hyperfine level-crossings in ( nD)Cs at two-step laser excitation: Experiment and theory.
      Optics Communications 264:333-341, August 2006.
      DOI BibTeX

      @article{2006OptCo.264..333A,
      	author = "{Auzinsh}, M. and {Blushs}, K. and {Ferber}, R. and {Gahbauer}, F. and {Jarmola}, A. and {Tamanis}, M.",
      	title = "{Electric field induced hyperfine level-crossings in ( nD)Cs at two-step laser excitation: Experiment and theory}",
      	journal = "Optics Communications",
      	keywords = "Physics - Atomic Physics",
      	year = 2006,
      	month = "Aug",
      	volume = 264,
      	pages = "333-341",
      	doi = "10.1016/j.optcom.2006.01.058",
      	archiveprefix = "arXiv",
      	eprint = "physics/0511035",
      	primaryclass = "physics.atom-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2006OptCo.264..333A",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      
    2. Marcis Auzinsh, Kaspars Blushs, Ruvin Ferber, Florian Gahbauer, Andrey Jarmola and Maris Tamanis.
      Electric-Field-Induced Symmetry Breaking of Angular Momentum Distribution in Atoms.
      \prl 97:043002, July 2006.
      DOI BibTeX

      @article{2006PhRvL..97d3002A,
      	author = "{Auzinsh}, Marcis and {Blushs}, Kaspars and {Ferber}, Ruvin and {Gahbauer}, Florian and {Jarmola}, Andrey and {Tamanis}, Maris",
      	title = "{Electric-Field-Induced Symmetry Breaking of Angular Momentum Distribution in Atoms}",
      	journal = "\prl",
      	keywords = "32.80.Qk, 32.60.+i, Coherent control of atomic interactions with photons, Zeeman and Stark effects, Physics - Atomic Physics",
      	year = 2006,
      	month = "Jul",
      	volume = 97,
      	eid = 043002,
      	pages = 043002,
      	doi = "10.1103/PhysRevLett.97.043002",
      	archiveprefix = "arXiv",
      	eprint = "physics/0603194",
      	primaryclass = "physics.atom-ph",
      	adsurl = "https://ui.adsabs.harvard.edu/\#abs/2006PhRvL..97d3002A",
      	adsnote = "Provided by the SAO/NASA Astrophysics Data System"
      }
      

    2005

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