Derevianko Group

Publications (for chronological order click here)

Five most recent papers

  1. "Mapping out atom-wall interaction with atomic clocks", A. Derevianko, B. Obreshkov, V. A. Dzuba, arXiv:0905.4780
  2. "Electric dipole polarizabilities at imaginary frequencies for the alkali-metal, alkaline-earth, and inert gas atoms", Andrei Derevianko, Sergey G. Porsev, James F. Babb, Atomic Data and Nuclear Data Tables (in press), arXiv:0902.3929
  3. ``Precision determination of electroweak coupling from atomic parity violation and implications for particle physics'', S. G. Porsev, K. Beloy and A. Derevianko, Phys. Rev. Lett. 102, 181601 (2009), arXiv:0902.0335
  4. ``Calculation of Stark-induced absorption on the 6s6p 3P1–6s2 1S0 transition in Hg'', K. Beloy, V. A. Dzuba, and A. Derevianko, Phys. Rev. A 79, 042503 (2009).
  5. ``AC Stark shift of the Cs microwave atomic clock transitions'', P. Rosenbusch, S. Ghezali, V. A. Dzuba, V. V. Flambaum, K. Beloy, A. Derevianko, Phys. Rev. A 79, 013404 (2009), arXiv:0810.4208

 

Fundamental symmetries

  1. ``Precision determination of electroweak coupling from atomic parity violation and implications for particle physics'', S. G. Porsev, K. Beloy and A. Derevianko, Phys. Rev. Lett. 102, 181601 (2009), arXiv:0902.0335
  2. "Reconciliation of the measurement of parity-nonconservation in Cs with the Standard Model", A. Derevianko, Phys. Rev. Lett., 85, 1618 (2000)  (hep-ph/0005274) (PRL online link)
  3. ``Calculations of the neutron skin and its effect in atomic parity violation'' (a.k.a. "Dispelling the curse of the neutron skin in atomic parity violation"),  B. A. Brown, A. Derevianko, V. V. Flambaum, Phys. Rev. C 79, 035501 (2009), arXiv:0804.4315
  4. "Proposal for a sensitive search for electric dipole moment of electron with matrix-isolated radicals", M. Kozlov and A. Derevianko, Phys. Rev. Lett. 97, 063001 (2006). (physics/0602111)
  5. "Theoretical overview of atomic parity violation. Recent developments and challenges", A. Derevianko and S. G. Porsev, Eur. Phys. J. A 32 (4), pp. 517--523 (2007). (hep-ph/0608178)
  6. "Molecular CP-violating magnetic moment", A. Derevianko and M. Kozlov, . (physics/0507040)
  7. "Atomic CP-violating polarizability", B. Ravaine, M. Kozlov and A. Derevianko, Phys. Rev. A 72, 012101 (2005), (hep-ex/0504017)
  8. "Marked influence of the nature of chemical bond on CP-violating signature in molecular ions HBr+ and HI+", B. Ravaine,  S. G. Porsev, and A. Derevianko,  Phys. Rev. Lett 94, 013001 (2005) (hep-ex/0411057).
  9. "Effects of confinement on the permanent electric-dipole moment of Xe atoms in liquid Xe",  B. Ravaine and A. Derevianko, rapid communication, Phys. Rev. A 69, 050101(R) (2004), (physics/0404050).
  10. "Correlated many-body treatment of the Breit interaction with application to cesium atomic properties and parity violation", A. Derevianko, Phys. Rev. A 65, 012106 (2002)  (physics/0108033). (PRA online) .
  11. "Reevaluation of the role of nuclear uncertainties in experiments on atomic parity violation with isotopic chains", A. Derevianko and S. G. Porsev, Phys. Rev. A 65 052115 (2002) (physics/0112035)  (PRA online) .
  12. "Role of negative-energy states and Breit interaction in calculations of atomic parity-nonconserving amplitudes", A. Derevianko,  (physics/0001046)

Atomic clocks

  1. "Mapping out atom-wall interaction with atomic clocks", A. Derevianko, B. Obreshkov, V. A. Dzuba, arXiv:0905.4780
  2. "Micromagic clock: microwave clock based on atoms in an engineered optical lattice", K. Beloy, A. Derevianko, V. A. Dzuba, V. V. Flambaum, Phys. Rev. Lett. 102, 120801 (2009), arXiv:0808.2821. Media coverage: Why aluminum should replace cesium as the standard of time? by the the physics arXiv blog; The crucible column in Chemistry World magazine October 2008 issue;Time to shrink the atomic clock in New Scientist magazine, March 14, 2009 issue.
  3. ``AC Stark shift of the Cs microwave atomic clock transitions'', P. Rosenbusch, S. Ghezali, V. A. Dzuba, V. V. Flambaum, K. Beloy, A. Derevianko, Phys. Rev. A 79, 013404 (2009), arXiv:0810.4208
  4. ``Magic frequencies for cesium primary frequency standard", V. V. Flambaum, V. A. Dzuba, A. Derevianko, Phys. Rev. Lett. 101, 220801 (2008), arXiv:0809.2825
  5. "Trapping of neutral mercury atoms and prospects for optical lattice clocks", H. Hachisu, K. Miyagishi, S. G. Porsev, A. Derevianko, V. D. Ovsiannikov, V. G. Pal'chikov, M. Takamoto and H. Katori, Phys. Rev. Lett. 100, 053001 (2008)(arXiv:0711.4638)This work was highlighted by Discovery Channel: Quicksilver Clock Could 'Revolutionize' Physics .
  6. "High-accuracy calculation of black-body radiation shift in 133Cs primary frequency standard", K. Beloy, U. I. Safronova and A. Derevianko, Phys. Rev. Lett. 97, 040801 (2006). (physics/0606048). This work was highlighted  by PhysicsWeb/PhysicsWorld: Atomic clocks feel the heat , Nevada News, and Silver and Blue magazine.
  7. "Accurate evaluation of parameters of lattice clocks", A. Derevianko and S. G. Porsev, book chapter in "Optical atomic clocks" (2007).
  8. "Multipolar theory of black-body radiation shift of atomic energy levels and its implications for optical lattice clocks", S. G. Porsev and A. Derevianko, . (physics/0602082).
  9. "Hyperfine quenching of the metastable 3P0,2 states in divalent atoms", S. G. Porsev and A. Derevianko, Phys. Rev. A 69, 042506 (2004), (physics/0312006).
  10. "Possibility of an ultra-precise optical clock using the 6 1S0--6 3P0 transition in 171,173Yb atoms held in an optical lattice", S. G. Porsev, A. Derevianko, and  E. N. Fortson, rapid communication, Phys. Rev. A 69, 021403(R) (2004).

Quantum computing

  1. "Quantum computing with magnetic atoms in optical lattices of reduced periodicity", B. Ravaine, A. Derevianko, and P. R. Berman, Phys. Rev. A 74, 022330 (2006). (quant-ph/0606162)
  2. "Quantum computing with magnetically-interacting atoms", A. Derevianko and C. Cannon,  Phys. Rev. A 70, 062319 (2004). (quant-ph/0406117). Also at Virtual Journal of Quantum Information  5 (2005).

Ultracold atoms and molecules

  1. ``Application of B-splines to determining eigen-spectrum of Feshbach molecules’’, A. Derevianko, E. Luc-Koenig, F. Masnou-Seeuws, Can. J. Phys. (in press)
  2. "Bose-Einstein condensates of polar molecules: anisotropic interactions = anisotropic mass", A. Derevianko, arXiv:0807.3129.
  3. "Simplified contact pseudopotential for anisotropic interactions of polarized particles under harmonic confinement", A. Derevianko, arXiv:0807.3111.
  4. "Revised Huang-Yang multipolar pseudopotential", A. Derevianko, .(cond-mat/0507209)
  5. "Ultracold collision properties of metastable alkaline-earth atoms", A. Derevianko, S. G. Porsev, S. Kotochigova, E. Tiesinga, P. S. Julienne, Phys. Rev. Lett.90, 063002 (2003) (physics/0210076).
  6. "Anisotropic pseudo-potential for polarized dilute quantum gases", A. Derevianko,  Phys. Rev. A 67, 033607 (2003) (cond-mat/0212597); Erratum: Phys. Rev. A 72, 039901(E) (2005)
  7. "Feasibility of cooling and trapping metastable alkaline-earth atoms", A. Derevianko, Phys. Rev. Lett. 87, 023002 (2001)  (physics/0105030) (PRL online) 
  8. "Enhanced cooling of hydrogen by a buffer gas of alkali-metal atoms", A. Derevianko, R. Côté,  A. Dalgarno, G.-H. Jeung,  Phys. Rev. A 64, 011404 (2001). (PRA online)

Long-range (van der Waals) nteractions

  1. "Mapping out atom-wall interaction with atomic clocks", A. Derevianko, B. Obreshkov, V. A. Dzuba, arXiv:0905.4780
  2. "Electric dipole polarizabilities at imaginary frequencies for the alkali-metal, alkaline-earth, and inert gas atoms", Andrei Derevianko, Sergey G. Porsev, James F. Babb, Atomic Data and Nuclear Data Tables (in press), arXiv:0902.3929
  3. "Long-range forces between two excited mercury atoms and associative ionization", J. S. Cohen and A. Derevianko, .
  4. "High-precision Calculations of Dispersion Coefficients, Static Dipole Polarizabilities, and Atom-wall Interaction Constants for Alkali-metal Atoms'', A. Derevianko, W.R. Johnson, M. S. Safronova, and J.F. Babb, Phys. Rev. Lett., 82, 3589 (1999).
  5. "High-accuracy calculations of dispersion coefficients C6, C8 and C10 for alkaline-earth atoms", S. G. Porsev and A. Derevianko,  Journal of Experimental and Theoretical Physics, 102, No. 2, pp. 195–205 (2006) .[original text in Russian Zhurnal Éksperimental’noi i Teoreticheskoi Fiziki, 129, No. 2, pp. 227–238 (2006)]. (local copy)
  6. "Dipole polarizabilities of excited alkali-metal atoms and long range interactions of ground and excited state alkali-metal atoms with helium atoms", Ch. Zhu, A. Dalgarno, S. G. Porsev, and A. Derevianko,  Phys. Rev. A 70, 032722 (2004) .
  7. "Accurate relativistic many-body calculations of van der Waals coefficients C8 and C10 for alkali-metal dimers", S. G. Porsev and A. Derevianko, J. Chem. Phys. 119, 844 (2003) (e-print)
  8. "High-accuracy relativistic many-body calculations of van der Waals coefficients C6 for alkaline-earth atoms", S. G. Porsev and A. Derevianko,  rapid communication Phys. Rev. A 65, 020701(R) (2002) (physics/0108047). (PRA online)
  9. "High-precision determination of transition amplitudes of principal transitions in Cs from van der Waals coefficient C6", A. Derevianko and S. G. Porsev, Phys. Rev. A 65, 053403 (2002) (physics/0108041).(PRA online)
  10. "van der Waals interactions between molecular hydrogen and alkali-metal atoms", C. Zhu, A. Dalgarno and A. Derevianko, Phys. Rev. A 65, 034708 (2002).(PRA online)
  11. "Interaction Potentials of LiH, NaH, KH, RbH and CsH", N. Geum, G-H. Jeung, A. Derevianko, R. Côté,  A. Dalgarno,  J. Chem. Phys. 115, 5984 (2001). (JCP online)
  12. "High-precision calculations of van der Waals coefficients for heteronuclear alkali-metal dimers", A. Derevianko, J.F. Babb, A. Dalgarno, Phys. Rev. A 63, 052704 (2001), (physics/0102030) (PRA online)
  13. "Long-range Interaction of two metastable rare-gas atoms", A. Derevianko and A. Dalgarno, Phys. Rev. A, 62 , 062501 (2000) (physics/0005082) (PRA online link)

Atomic many-body theory and various atomic-structure

  1. ``Calculation of Stark-induced absorption on the 6s6p 3P1–6s2 1S0 transition in Hg'', K. Beloy, V. A. Dzuba, and A. Derevianko, Phys. Rev. A 79, 042503 (2009).
  2. "Second-order effects on the hyperfine structure of P states of alkali-metal atoms", K. Beloy and A. Derevianko, Phys. Rev. A 78, 032519 (2008), arXiv:0807.4210
  3. "Convergence of all-order many-body methods: coupled-cluster study for Li’’, A. Derevianko, S. G. Porsev, K. Beloy, Phys. Rev. A 78, 010503(R) (2008), arXiv:0804.4697
  4. ``Nuclear magnetic octupole moment and the hyperfine structure of the 5D states of the Ba+ ion'', K. Beloy, A. Derevianko, V. A. Dzuba,  G. T. Howell, B. B. Blinov, and E. N. Fortson, Phys. Rev. A 77, 052503 (2008), arXiv:0804.4317
  5. "Relativistic many-body calculation of energies, lifetimes, hyperfine constants, and polarizabilities in 7Li", W. R. Johnson, U. I. Safronova, A. Derevianko, and M. S. Safronova, Phys. Rev. A 77, 022510 (2008).
  6. "Application of the dual-kinetic-balance sets in the relativistic many-body problem of atomic structure", K. Beloy, and A. Derevianko, Comp. Phys. Comm. 179 310-319 (2008),   (arXiv:0710.3142).
  7. "Hyperfine structure of the metastable 3P2 state of alkaline-earth atoms as an accurate probe of nuclear magnetic octupole moments", K. Beloy, A. Derevianko, and W. R. Johnson,  Phys. Rev. A 77, 012512 (2008) (arXiv:0709.2655).
  8. "Optical Quenching of Metastable Magnesium", N. Rehbein, T.E. Mehlstaubler, J. Keupp, K. Moldenhauer, E. M. Rasel, W. Ertmer, V. Michels, A. Douillet, S. G. Porsev, A. Derevianko, C. F. Fischer, G. Tachiev, and V. G. Pal’chikov, Phys. Rev. A 76, 043406 (2007).
  9. "Relativistic coupled-cluster single-double method applied to alkali-metal atoms", R. Pal, M.S. Safronova, W.R. Johnson, A. Derevianko, S. G. Porsev,
  10. "Inclusion of triple excitations in the relativistic coupled-cluster formalism and calculation of Na properties'', S. G. Porsev and A. Derevianko, (physics/0511087).
  11. "Dressing lines and vertices in calculations of matrix elements with the coupled-cluster method and determination of Cs atomic properties", A. Derevianko and S. G. Porsev,  Phys. Rev. A 71, 032509 (2005), (physics/0410012).
  12. "Complete fourth-order relativistic many-body calculations for atoms", C. Cannon and A. Derevianko, rapid communication, Phys. Rev. A 69, 030502(R) (2004), (physics/0306099).
  13. "Relaxation effect and radiative corrections in many-electron atoms", A. Derevianko, B. Ravaine, and W.R. Johnson,  Phys. Rev. A 69, 054502 (2004) (physics/0401043).
  14. "Off-diagonal hyperfine interaction between the 6p1/2 and 6p3/2 levels in 133Cs", W. R. Johnson, H. C. Ho, C. E. Tanner, A. Derevianko, Phys. Rev. A 70, 014501 (2004), (physics/0404102).
  15. "Observation of nuclear magnetic octupole moment of 133Cs", V. Gerginov, A. Derevianko and C. E. Tanner, Phys. Rev. Lett., 91, 072501 (2003).
  16. "Fourth-order perturbative extension of the single-double excitation coupled-cluster method", A. Derevianko and E. D. Emmons,  Phys. Rev. A 66, 012503 (2002)  (physics/0204056) (PRA online) .
  17. Fourth-order perturbative extension of the single-double excitation coupled-cluster method, Part II: Angular reduction, A. Derevianko (Dec. 2002), pdf file (physics/0212008)
  18. "Many-body calculations of electric-dipole amplitudes for transitions between low-lying levels of Mg, Ca, and Sr", S. G. Porsev, M. G. Kozlov, Yu. G. Rakhlina, A. Derevianko, Phys. Rev. A 64, 012508 (2001).  (physics/0102070) (PRA online)
  19. "Precision Study of 5p 2P -5d 2D3/2 Transition Matrix Elements in Atomic 87Rb", S.B. Bayram, M. Havey, M. Rosu, A. Sieradzan, A. Derevianko, and W. R. Johnson, rapid communication, Phys. Rev. A 61, 050502(R) (2000)
  20. "Large Contributions of Negative Energy States to Forbidden Magnetic-Dipole Transition Amplitudes in Alkali-Metal Atoms'', I. M. Savukov, A. Derevianko, H. G. Berry, and W.R. Johnson, Phys. Rev. Lett 83, 2914 (1999).
  21. "Relativistic Many-body Calculations of Energy Levels, Hyperfine Constants,  Electric-Dipole Matrix Elements and Static Polarizabilities for Alkali-metal Atoms", M. S. Safronova, W. R. Johnson, and A. Derevianko,  Phys. Rev. A 60, 4476 (1999). (PRA online link)
  22. "Ab initio Calculations of Off-diagonal Hyperfine Interaction in Cesium'', A. Derevianko, M.S. Safronova, and W.R. Johnson, rapid communication, Phys. Rev. A  60, R1741 (1999).
  23. "Relativistic Many-body Calculations of Transition Probabilities for the 2l1 3l2 [LSJ] - 2l3 3l4[L'S'J'] lines in Be-like Ions'', U.I. Safronova,  A. Derevianko, M.S. Safronova, and W.R. Johnson, J. Phys. B  32,  3527 (1999).
  24. "Higher-order Stark Effects on an Excited Helium Atom'', A. Derevianko, W.R. Johnson, V.D. Ovsiannikov, V.G. Pal'chikov, D.R. Plante, and G. von Oppen, Phys. Rev. A 60, 986 (1999)
  25. "Relativistic Many-body Calculations of Magnetic Dipole Transitions in Be-like Ions'',  U.I. Safronova, W.R. Johnson, and A. Derevianko, Phys. Scripta 60, 46 (1999).
  26. "Relativistic Many-Body Calculations of Transition Probabilities for the 2l1 2l2[LSJ] -2l3 2l4 [L'S'J'] lines in Be-like Ions", U.I. Safronova, W.R. Johnson, M.S. Safronova, and A. Derevianko, Phys. Scripta 59, 286  (1999).
  27. "Fine-Structure Effects in Relativistic Calculations of Static Polarizability of Helium Atom", A. Derevianko, W. R. Johnson, V. D. Ovsiannikov, V. G. Pal'chikov, D. R. Plante, G. von Oppen, JETP, 88, 272 (1999). 
  28. "Many-Body Calculations of the Static Atom-Wall Interaction Potential for Alkali-Metal Atoms", A. Derevianko, W.R. Johnson, and S. Fritzsche, Phys. Rev. A, 57, 2629 (1998)
  29. "Negative-energy Contribution to Transition Amplitudes in Heliumlike Ions",  A. Derevianko, I. M. Savukov, W.R. Johnson, and D.R. Plante, Phys. Rev. A 58, 4453  (1998).
  30. "Relativistic Many-Body Calculations of Energy Levels, Hyperfine Constants, and Transition Rates for Sodiumlike Ions, Z=11-16", M.S. Safronova, A. Derevianko, and W.R. Johnson,  Phys. Rev. A, 58, 1016 (1998).(PRA online link)
  31. "Relativistic Many-body Perturbation Theory", W.R. Johnson, M.S. Safronova, and A. Derevianko, Atomic Processes in Plasmas, AIP Conf. Proc.  443, p.3-18  (Eds. E. Oks and M.S. Pindzola, AIP Press, 1998).
  32. "Two-Photon Decay of 21S0 and 23S1 States of Heliumlike Ions", A. Derevianko and W.R. Johnson, Phys. Rev. A 56, 1288 (1997)

Photoionization

  1. "Non-dipole effects in photoionization of rare-gas atoms", A. Derevianko and W.R. Johnson, Proceedings of XXII International Conference on Photonic, Electronic and Atomic Collisions, Edited by J. Burgdorfer, J.S. Cohen,  S. Datz, and C.R. Vane, Rinton Press, Princeton NJ, pp. 226-237 (2001). (pdf file)
  2. "Electric-octupole and Pure-electric-quadrupole Effects in Soft-x-ray Photoemission", A. Derevianko, O. Hemmers, S. Oblad, P. Glans, H. Wang, S. B. Whitfield, R. Wehlitz, I. A. Sellin, W. R. Johnson, and D. W. Lindle, Phys. Rev. Lett.  84, 2116 ( 2000).
  3. "Many-body and Model-potential Calculations of Low-energy Photoionization Parameters for Francium", A. Derevianko, W.R. Johnson, and H. R. Sadeghpour, Phys. Rev. A, 61, 022506 (2000).
  4. "Non-dipole Effects in Photoelectron Angular Distributions for Rare Gas Atoms", A. Derevianko, W.R. Johnson, K. T. Cheng, At. Data Nuc. Data Tables, 73, 153-211 (1999).
  5. "Non-dipole Effects in Photoionization of the n=2 shell of Neon: Random-Phase Approximation", W. R. Johnson, A. Derevianko, K. T. Cheng, Valery K. Dolmatov, and Steven T. Manson, Phys. Rev. A, 59, 3609 (1999)

Plasma physics

  1. "Review of the Advanced Generalized Theory for Stark Broadening of Hydrogen Lines in Plasmas with Tables'', J. Touma, E.Oks, S. Alexiou, and A. Derevianko, J. Quant. Spectr. Rad. Transfer, 65, 543 (2000). 
  2. "Exact Solution for Impact Broadening of Hydrogen Lines Ly-beta and Ly-gamma", A. Derevianko and E.Oks, Spectral Line Shapes, v.10, AIP Conf. Proc.  467,  p.148  (Ed. R.M. Herman, AIP Press, Woodbury, NY, 1999)
  3. "Simple Universal Multi-Particle Model of Ion Dynamical Broadening", A. Derevianko, E. Oks,  J.Quant. Spectr. Rad. Transfer, 58, No 5/6, 553 (1997).
  4. "Dual-Purpose Diagnostics of Edge Plasmas of Tokamaks Based on a Novel Spectroscopic Effect",  A. Derevianko, E. Oks, Rev. Sci. Instrum., 68, 998 (1997).
  5.  "A New Multi-particle Model of Ion Broadening Applicable for Both High and Low Densities", A. Derevianko, E. Oks, Spectral Line Shapes, v.9, AIP Conf. Proc.  386, p.15-18 (Eds. M. Zoppi and L. Ulivi, AIP Press, Woodbury, NY, 1997) .
  6. "On Exact Solution for the Impact Broadening of Hydrogen Spectral Lines", A. Derevianko, E. Oks, Physics of Strongly Coupled Plasmas,  p.286, p.292 (Eds. W.D. Kraeft, M. Schlanges, World Scientific, New Jersey, 1996)
  7. "Improved Theory of Ion Impact Broadening in Magnetized Plasmas and Its Diagnostic Applications",  E. Oks and A. Derevianko, Spectral Line Shapes, AIP Conf.  Proc. 328, p.34-35  (Eds. M. Zoppi and L. Ulivi, AIP Press, Woodbury, NY, 1995) .
  8. "Ion Impacts on Moving Emitters: A Convergent Theory of Anisotropic Broadening in High Temperature Plasmas ", A. Derevianko and E.Oks,  J. Quant. Spectr. Rad. Transfer, 54, No 1/2, 137 (1995).
  9. "Generalized Theory of Stark Broadening of Hydrogenlike Spectral Lines in Dense Plasmas ", E.Oks, A. Derevianko, and Ya. Ispolatov, J. Quant. Spectr. Rad. Transfer, 54, No 1/2, 307 (1995).
  10. "Generalized Theory of Ion Impact Broadening in Magnetized Plasmas and Its Applications for Tokamaks", A. Derevianko and E.Oks,  Phys. Rev. Lett., 73, No 15, 2059 (1994).
  11. "Quasi-0D Model of Acceleration of  Plasma Clot in a Coaxial Gun", A. Derevianko and S. A. Medin, preprint #8-355, Institute for High Temperatures, Russian Academy of Sciences (1992)  (in Russian)

Notes

Student theses

 

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