Recent Publications

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1. L. Bougas, J. Byron, D. Budker, and J. Williams,
   Absolute optical chiral analysis using cavity-enhanced polarimetry
   ChemRxiv (2021). 10.33774/chemrxiv-2021-2c93p
   
   

2. S. Droulias and L. Bougas
   Chiral sensing with achiral anisotropic metasurfaces
   Physical Review B 104, 075412 (2021) [arXiv:2103.10279].
   
   

3. S. Droulias and L. Bougas
   Surface plasmons for absolute chiral sensing
   Book chapter,“Chirality, magnetism, and magnetoelectricity: Separate phenomena and joint effects in metamaterial structures", Springer (2021).
   
   

4. J. C. Visschers, D. Budker, and L. Bougas
   Rapid parameter estimation of discrete decaying signals using autoencoder networks
   Mach. Learn.: Sci. Technol. 2 045024 (2021) [arXiv:2103.08663].
   
   

5. J. C. Visschers, E. Wilson, T. Conneely, A. Mudrov, and L. Bougas
   Rapid parameter determination of discrete damped sinusoidal oscillations
   ​Optics Express 29, 6863 (2021). 
   
   

6. A. Fabricant, G. Z. Iwata, S. Scherzer, L. Bougas, K. Rolfs, A. Jodko-Wladzinska, J. Voigt, R. Hedrich, and D. Budker
   Action potentials induce biomagnetic fields in Venus flytrap plants
   Scientific Reports 11, 1 (2021).
   
   

7. T. Lenz, G. Chatzidrosos, A. Wang, L. Bougas, Y. Dumeige, A. Wickenbrock, N. Kerber, J. Zázvorka, F. Kammerbauer, M. Kläui, Z. Kazi, K.-M. C. Fu, K. Itoh, H. Watanabe, and D.Budker
   Probing topological spin structures using light-polarization and magnetic microscopy
   Physical Review Applied 15, 024040 (2021). 
   
   

8. V. Ivády, H. Zheng, A. Wickenbrock, L. Bougas, G. Chatzidrosos, K. Nakamura, H. Sumiya, T. Ohshima, J. Isoya, D. Budker, I. A. Abrikosov, and A. Gali
   Photoluminescence at the ground-state level anticrossing of the nitrogen-vacancy center in diamond: A comprehensive study
   Physical Review B 103, 035307 (2021)
   
   

9.  Y. Hu, Geoffrey Z. Iwata, L. Bougas , J. W. Blanchard, A. Wickenbrock, G. Jakob, S. Schwarz, C. Schwarzinger, A. Jerschow, and D. Budker
   Rapid online solid-state battery diagnostics with optically pumped magnetometers
   Applied Sciences 10, 7864 (2020).
   
   

10. J. C. Visschers, O. Tretiak, D. Budker, and L. Bougas
    Continuous-wave cavity ring-down polarimetry
    The Journal of Chemical Physics 152, 164202 (2020). 
    
    

11.  S. Droulias and L. Bougas
    Absolute chiral sensing in dielectric metasurfaces with signal reversals
    Nano Letters 20, 5960 (2020).
    
    

12. 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, 034029 (2019).
    
    

13. S. Droulias and L. Bougas
    A surface plasmon platform for angle-resolved chiral sensing
    ACS Photonics 6, 1485 (2019).
    
    

14. N. Petersen, F. Mühlbauer, L. Bougas, A. Sharma, D. Budker, and P. Windpassinger
    Sawtooth-wave adiabatic-passage slowing of dysprosium
    Physical Review A 99, 063414 (2019). 
    
    

15. S. Lourette, L. Bougas, M. Kayci, S. Xu, and D. Budker
    Noncovalent force spectroscopy using wide-field optical and diamond-based magnetic imaging
    Journal of Applied Physics 126, 194502 (2019). 
    
    

16. O. Tretiak, P. Blümler, and L. Bougas
    Variable single-axis magnetic-field generator using permanent magnets
    AIP Advances 9, 115312 (2019).
    
    

17.  L. Bougas, L. D. Langenegger, C. A. Mora, M. Zeltner, W. J. Stark, A. Wickenbrock, J. W. Blanchard, and D. Budker
    Nondestructive in-line sub-picomolar detection of magnetic nanoparticles in flowing complex fluids
    Scientific Reports 8, 3491 (2018).
    
    

18. M. Kayci, S. Lourette, T. Wang,  L. Bougas, and D. Budker
    Quantitative measurements of non-covalent interactions with diamond based magnetic imaging
    Applied Physics Letters 113, 053103 (2018).
    
    

19. Y. Schlussel, T. Lenz, D. Rohner, Y. Bar-Haim,  L. Bougas, D. Groswasser, M. Kieschnick, E. Rozenberg, L. Thiel, A. Waxman, J. Meijer, P. Maletinsky, D. Budker, and R. Folman,
    Widefield imaging of superconductor vortices with electron spins in diamond
    Physical Review Applied 10, 034032 (2018). 
    
    

20. L. Bougas, A. Wilzewski, Y. Dumeige, D. Antypas, T. Wu, A. Wickenbrock, E. Bourgeois, M. Nesladek, H. Clevenson, D. Braje, D. Englund, and D. Budker
    On the possibility of miniature diamond-based magnetometers using waveguide geometries
    Micromachines 9(6), 276 (2108).
    
    

21. G. Chatzidrosos, A. Wickenbrock,  L. Bougas, H. Zheng, O. Tretiak, Y. Yang, and D. Budker
    Eddy-current imaging with nitrogen-vacancy centers in diamond
    Physical Review Applied 11, 014060 (2018).
    
    

22. Y. Dumeige, J.-F. Roch, F. Bretenaker, T. Debuisschert, V. Acosta, C. Becher, G. Chatzidrosos, A. Wickenbrock,  L. Bougas, A. Wilzewski, and D. Budker
    Infrared laser magnetometry with a NV doped diamond intracavity etalon
    Optics Express 27, 1706 (2018).
    
    

23. D. Antypas, A. Fabricant, L. Bougas, K. Tsigutkin, and D. Budker
    Towards improved measurements of parity violation in atomic ytterbium 
    Hyperfine Interact 238, 21 (2017).
    
    

24. D. Sofikitis, P. Glodic, G. Koumarianou, H. Jiang, L. Bougas, P. C. Samartzis, A. Andreev, and T. Peter Rakitzis
    Highly nuclear-spin-polarized deuterium atoms from the UV photodissociation of deuterium iodide
    Physical Review Letters 118, 233401 (2017). 
    
    

25. P. Kehayias, A. Jarmola, N. Mosavian, I. Fescenko, F. M. Benito, A. Laraoui, J. Smits, L. Bougas, D. Budker, A. Neumann, S. R. J. Brueck, and V. M. Acosta
    Solution nuclear magnetic resonance spectroscopy on a nanostructured diamond chip
    Nature Communications 8, 188 (2017).
    
    

26. J. Eills, J. W. Blanchard, L. Bougas , M. G. Kozlov, A. Pines, and D. Budker
    Measuring molecular parity nonconservation using nuclear magnetic resonance spectroscopy
    Physical Review A 96, 042119 (2017).
    
    

27. H. Zheng, G. Chatzidrosos, A. Wickenbrock, L. Bougas, R. Lazda, A. Berzins, F. H. Gahbauer, M. Auzinsh, R. Ferber, and D. Budker
    Level anti-crossing magnetometry with color centers in diamond
    Proc. SPIE, 101190X (2017). 
    
    

28. G. Chatzidrosos, A. Wickenbrock, L. Bougas, N. Leefer, T. Wu, K. Jensen, Y. Dumeige, and D. Budker
    Miniature cavity-enhanced diamond magnetometer
    Physical Review Applied 8, 044019 (2017).
    
    

29. A. Wickenbrock, H. Zheng, L. Bougas, N. Leefer, S. Afach, A. Jarmola, V. M. Acosta, and D. Budker
    Microwave-free magnetometry with nitrogen-vacancy centers in diamond
    Applied Physics Letters 109, 053505 (2016).
    
    

30. K. Van Tilburg, N. Leefer, L. Bougas , and D. Budker
    Search for ultralight scalar dark matter with atomic spectroscopy 
    Physical Review Letters 115, 011802 (2015).
    
    

31. N. Leefer, L. Bougas, D. Antypas, and D. Budker
    Towards a new measurement of parity violation in dysprosium
    Article submitted for the Proceedings of PAVI 2014, the 6th workshop of the series "From Parity Violation to Hadronic Structure and more", Journal of Physics: Conference Series arXiv:1412.1245 (2015).
    
    

32. L. Bougas, D. Sofikitis, G. E. Katsoprinakis, A. K. Spiliotis, P. Tzallas, B. Loppinet, and T. P. Rakitzis 
    Chiral cavity ring-down polarimetry: chirality and magnetometry measurements using signal reversals 
    Journal of Chemical Physics 143, 104202 (2015).
    
    

33. D. Sofikitis, A. K. Spiliotis, K. Stamataki, G. E. Katsoprinakis, L. Bougas , P. C. Samartzis,B. Loppinet, T. P. Rakitzis, E. Surligas, and S. Papadakis
    Microsecond-resolved SDR-based cavity ring down ellipsometry
    Applied Optics 54, 5861 (2015).
    
    

34.  D. Sofikitis*, L. Bougas*, G. E. Katsoprinakis, A. K. Spiliotis, B. Loppinet, and T. P. Rakitzis,
    Evanescent-wave and open-air chiral sensing via signal-reversing cavity-enhanced polarimetry
    Nature 514, 76 (2014) (* equal contribution).
    
    

35.  L. Bougas, G. E. Katsoprinakis, W. von Klitzing, and T. P. Rakitzis
    Fundamentals of cavity-enhanced polarimetry for parity-nonconserving optical rotation measurements: application to Xe, Hg and I 
    Physical Review A 89, 052127 (2014).
    
    

36. L. Bougas, G. E. Katsoprinakis, D. Sofikitis, T. P. Rakitzis, P. C. Samartzis, T. N. Kitsopou- los, J. Sapirstein, D. Budker, V. A. Dzuba, V. V. Flambaum, and M. G. Kozlov
    Stark shift and parity non-conservation for near-degenerate states of xenon
    Physical Review A 89, 042513 (2014). 
    
    

37. G. E. Katsoprinakis, L. Bougas, T. P. Rakitzis, V. A. Dzuba and V. V. Flambaum
    Calculation of parity non-conserving optical rotation in iodine at 1315 nm
    Physical Review A 87, 040101(R) (2013) (Rapid Communication).
    
    

38. L. Bougas, G. E. Katsoprinakis, W. von Klitzing, J. Sapirstein, and T. P. Rakitzis
    Cavity-enhanced parity non-conserving optical rotation in metastable Xe and Hg
    Physical Review Letters 108, 210801 (2012) (selected for Editors’ Suggestions). 
    
    

39. L. Bougas and T. P. Rakitzis
    Parent-molecule rotational depolarization of photofragment angularmomentum distributions: diatomic and polyatomic molecules
    Physical Chemistry Chemical Physics 13, 8526 (2011).
    
    

40. L. Bougas, D. Sofikitis, M. A. Everest, A. J. Alexander, and T. P. Rakitzis
    (2+1) laser-induced fluorescence of spin-polarized hydrogen atoms
    The Journal of Chemical Physics 133, 174308 (2010).
    
    

41. D. Sofikitis, L. Rubio-Lago, L. Bougas, A. J. Alexander, and T. P. Rakitzis
    Laser-detection of spin-polarized hydrogen from HCl and HBr photodissociation: The effect of parent-molecule rotation
    The Journal of Chemical Physics 129, 144302 (2008).