{"id":177,"date":"2024-07-15T20:25:27","date_gmt":"2024-07-16T03:25:27","guid":{"rendered":"https:\/\/dornsife.usc.edu\/kresin\/?page_id=177"},"modified":"2026-02-06T15:36:30","modified_gmt":"2026-02-06T23:36:30","slug":"publications","status":"publish","type":"page","link":"https:\/\/dornsife.usc.edu\/kresin\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"\n\n \n \n\n\n\n\n\n\n\n
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Vitaly V. Kresin<\/strong><\/h3>\n

\u00a0Book<\/span>\u00a0 \u00a0 <\/strong>Electric-Dipole Polarizabilities of Atoms, Molecules and Clusters<\/em>,<\/a>\u00a0K.D.Bonin and V.V.Kresin (World Scientific, 1997).<\/p>\n

Publications<\/span><\/strong><\/p>\n

113.<\/strong> “Temperature-dependent photoionization thresholds of alkali-metal nanoparticles reveal thermal expansion and the melting transition,” A.O.Haridy, A.A.Sheekhoon, and V.V.Kresin, Phys. Rev. B 113, L041404 (2026)<\/a>.\u00a0 Selected as “Editors’ Suggestion.”\u00a0 Highlighted in APS Physics <\/em>magazine: “A New Probe of Nanoparticle Melting”<\/a>. Described as a “Research Highlight” in Nature<\/em> magazine: “Not just a chip off the old block: nanoparticles reveal odd traits.”<\/span><\/span><\/a><\/span><\/p>\n

112.<\/strong> “Photoionization of temperature-controlled nanoparticles in a beam: Accurate and efficient determination of ionization energies and work functions,” A.A.Sheekhoon, A.O.Haridy, S.Pedalino, and V.V. Kresin, Rev. Sci. Instrum. 96, 123705 (2025)<\/a>.<\/p>\n

111.<\/strong> “Stern-Gerlach deflection of cryogenically cold polyatomic molecules in superfluid nanodroplets<\/span>,”\u00a0B.S.Kamerin, T.H.Villers, J.W.Niman, J.Liang, A.I. Pena Dominguez, and V.V.Kresin,<\/span> J. Chem. Phys. 163, 061101 (2025)<\/a>. Rapid Communication<\/span><\/p>\n

110.<\/strong> “Magnetic deflection of high-spin sodium dimers formed on helium nanodroplets,” T.H.Villers, B.S.Kamerin, and V.V.Kresin, J. Phys. Chem. Lett. 16, 4436 <\/span><\/a>(2025)<\/a><\/span>. Highlighted as “Editors’ Choice”<\/span><\/p>\n

109.<\/strong> “Shift of nanodroplet and nanocluster size distributions induced by dopant pick-up statistics<\/span>,” M.Riddle, A.I.Pena Dominguez, B.S.Kamerin, and V.V.Kresin, J. Chem. Phys. 162, 054307 (2025)<\/a><\/span>.<\/p>\n

108.<\/strong> “What does it take to stabilize a naphthalene anion?”, J.\u010eurana, B.Koc\u00e1bkov\u00e1, J.Rakovsk\u00fd, A.Pysanenko, V.Kresin, J.Fedor, and M.F\u00e1rn\u00edk, J. Chem. Phys. 161, 124303 (2024)<\/a>.<\/p>\n

107.<\/strong> “Ionization of aluminum clusters,” A.Halder and V.V.Kresin, Int. J. Mass Spectrom. 494, 117136 (2023)<\/a>.<\/p>\n

106.<\/strong> “Substrate-selective adhesion of metal nanoparticles to graphene devices,” P.J.Edwards, S.Stuart, J.T.Farmer, R.Shi, R.Long, O.V.Prezhdo, and V.V.Kresin, J. Phys. Chem. Lett. 14, 6414 (2023)<\/a>.<\/p>\n

105.<\/strong> “Probing the presence and absence of metal-fullerene electron transfer reactions in helium nanodroplets by deflection measurements,” J.W.Niman, B.S.Kamerin, T.H.Villers, T.M.Linker, A.Nakano, and V.V.Kresin, Phys. Chem. Chem. Phys. 24, 10378 (2022)<\/a>.<\/p>\n

104.<\/strong> “Shells in CO2<\/sub> clusters,” J.W.Niman, B.S.Kamerin, V.V.Kresin, J.Krohn, R.Signorell, R.Halonen, and K.Hansen, Phys. Chem. Chem. Phys, 24, 5343 (2022)<\/a>.\u00a0Highlighted as a “Hot Article”<\/span><\/p>\n

103.<\/strong> “High temperature superconductivity in size-selected metal nanoclusters: Gas-phase spectroscopy, and prototype devices for deposition studies,” P.J.Edwards, M.Khojasteh, A.Halder, and V.V.Kresin, J. Supercond. Nov. Magn. 35, 997 (2022) .<\/a> Invited review<\/span><\/p>\n

102.<\/strong> “Kinetic energy deposited into a nanodroplet, cluster, or molecule in a sticking collision with background gas,” J.Liang and V.V.Kresin, J. Chem. Phys. 153, 196101 (2020)<\/a>.<\/p>\n

101.<\/strong> “Electric deflection of imidazole dimers and trimers in helium nanodroplets: Dipole moments, structure, and fragmentation,” B.S.Kamerin, J.W.Niman, and V.V.Kresin, J. Chem. Phys. 153, 081101 (2020)<\/a>.\u00a0\u00a0\u00a0Selected as “Editor\u2019s Pick”<\/span><\/p>\n

100.<\/strong> “Strong permanent magnet gradient deflector for Stern-Gerlach-type experiments on molecular beams,” J.Liang, T.M.Fuchs, R.Sch\u00e4fer, and V.V.Kresin, Rev. Sci. Instrum. 91, 053202 (2020)<\/a>.<\/p>\n

99.<\/strong> “Decoration of suspended single-walled carbon nanotubes with soft-landed size-selected metal nanoparticles,” M.Khojasteh, M.H.Mecklenburg, P.J.Edwards, J.Lefebvre, J.Ding, P.R.L.Malenfant, and V.V.Kresin, Thin Solid Films 699, 137907 (2020)<\/a>.<\/p>\n

98.<\/strong> “Direct detection of polar structure formation in helium nanodroplets by beam deflection measurements,” J.W.Niman, B.S.Kamerin, L.Kranabetter, D.J.Merthe, J.Suchan, P.Slav\u00ed\u010dek, and V.V.Kresin, Phys. Chem. Chem. Phys. 21, 20764 (2019<\/a>).<\/p>\n

97.<\/strong> “Oriented polar molecules trapped in cold helium nanodroplets: Electrostatic deflection, size separation, and charge migration,”J.W.Niman, B.S.Kamerin, D.J.Merthe, L.Kranabetter, and V.V.Kresin, Phys. Rev. Lett. 123, 043203 (2019)<\/a>.<\/p>\n

96.<\/strong> “Controlled deposition of size-selected MnO nanoparticle thin films for water splitting applications: Reduction of onset potential with particle size,” M.Khojasteh, S.Haghighat, J.Dawlaty, and V.V.Kresin, Nanotechnology 29, 215603 (2018)<\/a>.<\/p>\n

95.<\/strong> “Influence of source parameters on the growth of metal nanoparticles by sputter-gas-aggregation,” M.Khojasteh and V.V.Kresin, Appl. Nanosci. 7, 875 (2017)<\/a>.<\/p>\n

94.<\/strong> “The transparency of graphene and other direct-gap two dimensional materials,” D.J.Merthe and V.V.Kresin, Phys. Rev. B 94, 205439 (2016)<\/a>.\u00a0\u00a0\u00a0\u00a0Highlighted in APS Physics Magazine<\/em>: <\/span>“Graphene\u2019s Elegant Optics Explained”<\/a>.<\/p>\n

93.<\/strong> “Electrostatic deflection of a molecular beam of massive neutral particles: Fully field-oriented polar molecules within superfluid nanodroplets,” D.J.Merthe and V.V.Kresin, J. Phys. Chem. Lett. 7, 4879 (2016)<\/a>.<\/p>\n

92.<\/strong> “Water cluster fragmentation probed by pickup experiments,” C.Huang, V.V.Kresin, A.Pysanenko, and M.F\u00e1rn\u00edk, J. Chem. Phys. 145, 104304 (2016)<\/a>.<\/p>\n

91.<\/strong> “Energies and densities of electrons confined in elliptical and ellipsoidal quantum dots,” A.Halder and V.V.Kresin, J. Phys.: Condens. Matter 28, 395302 (2016)<\/a>.\u00a0\u00a0\u00a0Featured in the journal\u2019s LabTalk Research Highlights.<\/span><\/p>\n

90.<\/strong> “Contamination-free loading of lithium metal into a nozzle source,” C.Huang and V.V.Kresin, Rev. Sci. Instrum. 87, 066105 (2016)<\/a>.<\/p>\n

89.<\/strong> “Formation of manganese nanoclusters in a sputtering\/aggregation source and the roles of individual operating parameters,” M.Khojasteh and V.V.Kresin, Proc. of SPIE 10174, 1017407 (2016)<\/a>\u00a0[Proc. Intern. Symp. on Clusters and Nanomaterials, ed. by P.Jena and A.K.Kandalam].<\/p>\n

88.<\/strong> “Spectroscopy of metal \u2032superatom\u2032 nanoclusters and high-Tc<\/sub><\/em> superconducting pairing,” A.Halder and V.V.Kresin, Phys. Rev. B 92, 214506 (2015)<\/a>.<\/p>\n

87.<\/strong> “Nanocluster ionization energies and work function of aluminum, and their temperature dependence,” A.Halder and V.V.Kresin, J. Chem. Phys. 143, 164313 (2015)<\/a>.<\/p>\n

86.<\/strong> “Proton transfer in histidine–<\/strong>tryptophan heterodimers embedded in helium droplets,” B.Bellina, D.J.Merthe and V.V.Kresin,\u00a0J. Chem. Phys. 142, 114306 (2015)<\/a>.<\/p>\n

85.<\/strong> “A novel feature in aluminum cluster photoionization spectra and possibility of electron pairing at T\u2273 100K,” A.Halder, A.Liang, and V.V.Kresin, Nano Letters 15, 1410 (2015)<\/a>.\u00a0\u00a0See USC News story:<\/span>\u00a0“These superconductors are just getting warmed up”<\/a>.<\/p>\n

84.<\/strong> “Electric dipole moments of nanosolvated acid molecules in water clusters,” N.Guggemos, P.Slav\u00ed\u010dek, and V.V.Kresin,\u00a0Phys. Rev. Lett. 114, 043401 (2015)<\/a>.\u00a0\u00a0See APS Physics Focus<\/em> story:<\/span>\u00a0\u00a0“Breaking up is hard to understand”<\/a>,\u00a0New Scientist story:<\/span>\u00a0“Half a dozen molecules cause vital acid break-up”<\/a>,\u00a0Journal Club for Condensed Matter Physics commentary<\/span>:\u00a0“Quantum Acid-Water”<\/a>.<\/p>\n

83.<\/strong> “Photoionization yields, appearance energies, and densities of states of copper clusters,” A.Halder, C.Huang, and V.V.Kresin,\u00a0J. Phys. Chem. C 119, 11178 (2015)<\/a>\u00a0[Special issue on\u00a0Current Trends in Clusters and Nanoparticles<\/em>].<\/p>\n

82.<\/strong> “Flat Thomas-Fermi artificial atoms,” Yu.N.Ovchinnikov, A.Halder, and V.V.Kresin, EPL (Europhysics Letters) 107, 37001 (2014)<\/a>.<\/p>\n

81.<\/strong> “Formation of unusual copper clusters in helium nanodroplets,” L.F.Gomez, E.Loginov, A.Halder, V.V.Kresin, and A.F.Vilesov, Int. J. Nanosci. 12, 1350014 (2013)<\/a>.<\/p>\n

80.<\/strong> “Photoionization profiles of metal clusters and the Fowler formula,” A.Prem and V.V.Kresin, Phys Rev. A 85, 025201 (2012)<\/a>.<\/p>\n

79.<\/strong> “Beam broadening of polar molecules and clusters in deflection experiments,” J.Bulthuis and V.V.Kresin, J. Chem. Phys 136, 014301 (2012)<\/a>.<\/p>\n

78.<\/strong> “Double and triple ionization of silver clusters by electron impact,” A.Halder, A.Liang, C.Yin, and V.V.Kresin, J. Phys.: Condens. Matter 24, 104009 (2012)<\/a>\u00a0[Invited contribution to the\u00a0G.Benedek\u00a0Festschrift].<\/p>\n

77.<\/strong> “Slow electron attachment as a probe of cluster evaporation processes,” R.Rabinovitch, K.Hansen, and V.V.Kresin, J. Phys. Chem. A 115 , 6961 (2011)<\/a>\u00a0[Invited contribution to the\u00a0J.P.Toennies\u00a0Festschrift].<\/p>\n

76.<\/strong> “Photoabsorption of AgN <\/sub><\/em>(N<\/em>~6-6000) nanoclusters formed in helium droplets: A transition from compact to multi-center aggregation,”\u00a0E.Loginov, L.F.Gomez, N.Chiang, A.Halder, N.Guggemos, V.V.Kresin, and A.Vilesov,\u00a0Phys. Rev. Lett.\u00a0106, 233401 (2011)<\/a>.<\/p>\n

75.<\/strong> “Electric and magnetic dipole moments of free nanoclusters,” W.A. deHeer and V.V.Kresin, in Handbook of Nanophysics<\/a><\/em>, ed. by K.D.Sattler (CRC Press, Boca Raton, 2010) [arXiv:0901.4810<\/a>].<\/p>\n

74.<\/strong>“Critical sizes for the submersion of alkali clusters into liquid helium,” C.Stark and V.V.Kresin,\u00a0Phys. Rev. B 81, 085401 (2010)<\/a>.<\/p>\n

73<\/strong>.<\/strong>“Electric dipole moments of nitric acid-water complexes measured by cluster beam deflection,” R.Moro, J.Heinrich, and V.V.Kresin, in The Fourth International Symposium on Atomic Cluster Collisions<\/em>:\u00a0Structure and Dynamics from the Nuclear to the Biological Scale<\/em>, ed. by A.V.Solov\u2019yov and E.Surdutovich (AIP Conference Proceedings, vol. 1197, 2009)\u00a0[arXiv:0910.1630<\/a>].<\/p>\n

72.<\/strong> “Photoabsorption by volume plasmons in metal nanoclusters,” C.Xia, C.Yin, and V.V.Kresin, Phys. Rev. Lett. 102, 156802 (2009)<\/a>.<\/p>\n

71.<\/strong> “Photoabsorption resonances of Na20<\/sub>, Na21<\/sub>Cl and Na22<\/sub>Cl2<\/sub> clusters,” C.Xia, C.Yin, and V.V.Kresin, Eur. Phys. J. D 52, 183 (2009)<\/a>.<\/p>\n

70.<\/strong> “Orientation of dipole molecules and clusters upon adiabatic entry into an external field,” J.Bulthuis, J.A.Becker, R.Moro, and V.V.Kresin, J. Chem. Phys. 129, 024101 (2008)<\/a>.<\/p>\n

69.<\/strong> “Evaporative attachment of slow electrons to alkali nanoclusters,” R.Rabinovitch, C.Xia, and V.V.Kresin, Phys. Rev. A 77, 063202 (2008)<\/a>.<\/p>\n

68.<\/strong> “Suppressing the fragmentation of fragile molecules in helium nanodroplets by co-embedding with water: Possible role of the electric dipole moment,” Y.Ren and V.V.Kresin, J. Chem. Phys. 128, 074303 (2008)<\/a>.<\/p>\n

67.<\/strong> “Density of states of helium droplets,” K.Hansen, M.D.Johnson, and V.V.Kresin, Phys. Rev. B 76, 235424 (2007)<\/a>.<\/p>\n

66.<\/strong> “Surface location of alkaline-earth atom impurities on helium nanodroplets,” Y.Ren and V.V.Kresin, Phys. Rev. A 76, 043204 (2007)<\/a>.<\/p>\n

65.<\/strong> “Photodissociation of hydrogen halide molecules on free ice nanoparticles,” V.Poterya, M.F\u00e1rn\u00edk, P.Slav\u00ed\u010dek, U.Buck, and V.V.Kresin, J. Chem. Phys. 126, 071101 (2007)<\/a>.<\/p>\n

64.<\/strong> “Electrostatic deflection of the water molecule: A fundamental asymmetric rotor ,” R.Moro, J.Bulthuis, J.Heinrich, and V.V.Kresin, Phys. Rev. A 75, 013415 (2007)<\/a>.<\/p>\n

63<\/strong>. “Changing the fragmentation pattern of molecules in helium nanodroplets by co-embedding with water,” Y.Ren, R.Moro, and V.V.Kresin, Eur. Phys. J. D 43, 109 (2007)<\/a>.<\/p>\n

62.<\/strong> “Electric dipole moments of water clusters from a beam deflection measurement,” R.Moro, R.Rabinovitch, C.Xia, and V.V.Kresin, Phys. Rev. Lett. 97, 123401 (2006)<\/a>.<\/p>\n

61.<\/strong> “Loss of chlorine in mass spectra of DCl picked up by water clusters in a beam,” R.Moro, R.Rabinovitch, and V.V.Kresin, J. Chem. Phys. 124, 146102 (2006)<\/a>.<\/p>\n

60.<\/strong> “Fast electronic relaxation in metal nanoclusters via excitation of coherent shape deformations,” V.V.Kresin and Yu.N.Ovchinnikov, Phys. Rev. B 73, 115412 (2006)<\/a>.<\/p>\n

59.<\/strong> “Surface-impact ionization of alkali nanoparticles,” C.Xia, R.Rabinovitch, R.Moro, and V.V.Kresin, Intern. J. Mass Spectrom. 252, 142 (2006)<\/a>.<\/p>\n

58.<\/strong> “Amino-acid and water molecules adsorbed on water clusters in a beam,” R.Moro, R.Rabinovitch, and V.V.Kresin, J. Chem. Phys. 123, 074301 (2005)<\/a>.<\/p>\n

57<\/strong>. “Pick-up cell for cluster beam experiments,” R.Moro, R.Rabinovitch, and V.V.Kresin, Rev. Sci. Instrum. 76, 056104 (2005)<\/a>.<\/p>\n

56.<\/strong> “Obtaining colder ensembles of free clusters by using evaporation and recoil,” K.Hansen, K.Wong, and V.V.Kresin, Eur. Phys. J. D 32, 339 (2005)<\/a>.<\/p>\n

55.<\/strong> “Photoionization of alkali nanoparticles and clusters,” K.Wong and V.V.Kresin, in Latest Advances In Atomic Cluster Collisions: Fission, Fusion, Electron, Ion and Photon Impact<\/em>, ed. by A.Solov’yov and J.-P.Connerade (Imperial College Press,\u00a0London, 2004).<\/p>\n

54.<\/strong> “Unusual pick-up statistics of high-spin alkali agglomerates on helium nanodroplets,” S.Vongehr and V.V.Kresin, J. Chem. Phys. 119, 11124 (2003)<\/a>.<\/p>\n

53.<\/strong> “Photoionization threshold shapes of metal clusters,” K.Wong and V.V.Kresin, J. Chem. Phys. 118, 7141 (2003)<\/a>.<\/p>\n

52.<\/strong> “Intramolecular quantum chaos in doped helium nanodroplets,” E.Polyakova, D.Stolyarov, X.Zhang, V.V.Kresin, and C.Wittig, Chem. Phys. Lett. 375, 253 (2003)<\/a>.<\/p>\n

51.<\/strong> “Work functions, ionization potentials, and in-between: Scaling relations based on the image charge model,” K.Wong, S.Vongehr, and V.V.Kresin, Phys. Rev. B 67, 035406 (2003)<\/a>.<\/p>\n

50.<\/strong> “Temperature-dependent work functions of free alkali-metal nanoparticles,” K.Wong, G.Tikhonov, and V.V.Kresin, Phys. Rev. B 66, 125401 (2002)<\/a>.<\/p>\n

49.<\/strong> “Velocity distribution measurement and two-wire field effects for electric deflection of a neutral supersonic cluster beam,” G.Tikhonov, K.Wong, V.Kasperovich, and V.V.Kresin, Rev. Sci. Instrum. 73, 1204 (2002)<\/a>.<\/p>\n

48.<\/strong> “Growing ultracold sodium clusters by using helium nanodroplets,” S.Vongehr, A.A.Scheidemann, C.Wittig, and V.V.Kresin, Chem. Phys. Lett. 353, 89 (2002)<\/a>.<\/p>\n

47.<\/strong> “Photo-ionization efficiency curves of alkali nanoclusters in a beam and determination of metal work functions,” K.Wong, V.Kasperovich, G.Tikhonov, and V.V.Kresin, Appl. Phys. B 73, 407 (2001)<\/a>.<\/p>\n

46.<\/strong> “A measurement of the polarizability of sodium clusters,” G.Tikhonov, V.Kasperovich, K.Wong, and V.V.Kresin, Phys. Rev. A 64, 063202 (2001)<\/a>.<\/p>\n

45.<\/strong> “An inelastic threshold in electron – alkali cluster collisions,” V.Kasperovich, K.Wong, G.Tikhonov, and V.V.Kresin, Eur. Phys. J. D 16, 99 (2001)<\/a>.<\/p>\n

44.<\/strong> “Low-energy electron capture by free C60<\/sub> and the importance of polarization interaction,” V.Kasperovich, G.Tikhonov, and V.V.Kresin, Chem. Phys. Lett. 337, 55 (2001)<\/a>.<\/p>\n

43.<\/strong> “Negative ion formation in collisions of low-energy electrons with neutral sodium clusters,” V.Kasperovich, G.Tikhonov, K.Wong, and V.V.Kresin, Phys. Rev. A 62, 063201 (2000)<\/a>.<\/p>\n

42.<\/strong> “Electron capture by the image charge of a metal nanoparticle,” V.Kasperovich, K.Wong, G.Tikhonov, and V.V.Kresin, Phys. Rev. Lett. 85, 2729 (2000)<\/a>.<\/p>\n

41.<\/strong> “Long-range polarization interactions of metal clusters,” V.V.Kresin and C.Guet, Philos. Mag. B 79, 1401 (1999).<\/a><\/p>\n

40.<\/strong> “Polarization forces in collisions between low-energy electrons and sodium clusters,” V.Kasperovich, G.Tikhonov, K.Wong, P.Brockhaus, and V.V.Kresin, Phys. Rev. A 60, 3071 (1999)<\/a>.<\/p>\n

39.<\/strong> “Measuring cluster temperatures via kinetic energy release,” P.Brockhaus, K.Wong, K.Hansen, V.Kasperovich, G.Tikhonov, and V.V.Kresin, Phys. Rev. A 59, 495 (1999)<\/a>.<\/p>\n

38<\/strong>.<\/strong>“Stability, evaporation, and temperature of metal nanoclusters,” P.Brockhaus, K.Wong, V.Kasperovich, G.Tikhonov, and V.V.Kresin, J. Non-Cryst. Solids,250-252<\/u>, 191 (1999).<\/p>\n

37.<\/strong> Comment on “Shape phase transitions in the absorption spectra of atomic clusters,” V.V.Kresin, Phys. Rev. Lett. 81, 5702 (1998)<\/a>.<\/p>\n

36.<\/strong> “Ultraviolet photoabsorption spectra of silver and gold nanoclusters,” V.Kasperovich and V.V.Kresin, Philos. Mag. B 78, 385 (1998).<\/a><\/p>\n

35.<\/strong> “Quantized electron states in metal microclusters: Electronic shells, structural effects, and correlations,” V.V.Kresin and W.D.Knight, in Pair Correlations in Many-Fermion Systems<\/em>\u00a0(Plenum, New York, 1998).<\/p>\n

34.<\/strong> “Long-range van der Waals forces between alkali clusters and atoms,” V.V.Kresin, G.Tikhonov, V.Kasperovich, K.Wong, and P.Brockhaus, J. Chem. Phys. 108, 6660 (1998)<\/a>.<\/p>\n

33.<\/strong> “Strong long-range forces between C60<\/sub> and Na atoms and microclusters,” V.V.Kresin, V.Kasperovich, G.Tikhonov, and K.Wong, Phys. Rev. A 57, 383 (1998)<\/a>.<\/p>\n

32. <\/strong>“Ordered states in disordered particles: Electronic shells and structural effects in metal clusters,” V.V.Kresin and W.D.Knight, Z. Phys. Chem. 203<\/u>, 57 (1998).<\/p>\n

31.<\/strong> “Capture of lithium by 4<\/sup>Helium clusters: Surface adsorption, Penning ionization, and formation of HeLi+<\/sup>,” A.A.Scheidemann, V.V.Kresin, and H.Hess,\u00a0J. Chem. Phys. 107, 2839 (1997)<\/a>.<\/p>\n

30. <\/strong>“Quantum transition theory and dynamics of ionic molecule formation in cluster collisions,” V.V.Kresin and V.Z.Kresin, Z. Phys. D 40<\/u>, 381 (1997).<\/p>\n

29. <\/strong>“Low frequency ‘demon’-like excitations in small metal particles and their interaction with light,” V.V.Kresin and V.Z.Kresin, Philos. Mag. B 74, 301 (1996).<\/a><\/p>\n

28. <\/strong>“Collective resonances in silver clusters: Role of d<\/em>-electrons and the polarization-free surface layer,” V.Kresin, Phys. Rev. B 51, 1844 (1995)<\/a>.<\/p>\n

27. <\/strong>“Van der Waals forces between metal microclusters and fullerenes,” A.A.Scheidemann, V.Kresin, and W.D.Knight, Phys. Rev. A 49<\/u>, R4293 (1994).<\/p>\n

26. <\/strong>“Van der Waals interaction of finite metallic systems: A study of cluster-atom scattering,” V.Kresin, A.Scheidemann, and W.D.Knight, Phys. Rev. A 49<\/u>, 2696 (1994).<\/p>\n

25. <\/strong>“Conduction band plasmons in cluster-type compounds: Application to fullerides and quantum dot arrays,” V.V.Kresin and V.Z.Kresin, Phys. Rev. B 49<\/u>, 2715 (1994).<\/p>\n

24. <\/strong>“Low-energy electron collisions with metal clusters: Electron capture and cluster fragmentation,” V.Kresin, A.Scheidemann, and W.D.Knight, in Electron Collisions with Molecules, Clusters and Surfaces<\/em>, ed. by H.Ehrhardt and L.Morgan (Plenum, New York, 1994), p. 183.<\/p>\n

23. <\/strong>“Electron-cluster interactions,” A.A.Scheidemann, V.Kresin, and W.D.Knight, Hyperfine Interactions 89<\/u>, 253 (1994).<\/p>\n

22. <\/strong>“Scattering of neutral metal clusters: Long-range interactions and response properties,” V.Kresin and A.Scheidemann, J. Chem. Phys. 98<\/u>, 6982 (1993).<\/p>\n

21.<\/strong> “Elastic and reactive collisions of atoms and molecules with neutral alkali clusters,” A.Scheidemann and V.Kresin, Z. Phys. D 26<\/u>, 13 (1993).<\/p>\n

20. <\/strong>“Collective resonances and response properties of electrons in metal clusters,” V.Kresin, Physics Reports 220<\/u>, 1 (1992).<\/p>\n

19. <\/strong>“Photodisintegration sum rule and electron distribution in metal clusters,” V.Kresin and E.Lipparini, Phys. Rev. B 46<\/u>, 9812 (1992).<\/p>\n

18. <\/strong>“Inelastic collisions of electrons with small metal clusters,” V.Kresin, A.Scheidemann, and W.D.Knight, in Physics and Chemistry of Finite Systems: From Clusters to Crystals<\/em>, ed. by P.Jena, S.N.Khanna, and B.K.Rao (Kluwer Academic, Dordrecht, 1992), p.957.<\/p>\n

17. <\/strong>“Electron scattering and electromagnetic response properties of metal clusters,” V.Kresin, in Nuclear Physics Concepts in the Study of Atomic Cluster Physics<\/em>, ed. by R.Schmidt, H.O.Lutz, and R.Dreizler, Lecture Notes in Physics, vol. 404 (Springer, Berlin, 1992), p.214.<\/p>\n

16. <\/strong>“Analysis of collective resonances in clusters: Metals and carbon,” V.Kresin, in Metal and Semiconductor Clusters and Colloids<\/em>, ed. by P.D.Persanset al<\/em>., MRS Symposium Proceedings, Vol. 272 (Materials Research Society, Pittsburgh, 1992).<\/p>\n

15. <\/strong>“Electron distribution and collective resonances in non-spherical metal clusters,” V.Kresin, Phys. Rev. B 45<\/u>, 14321 (1992).<\/p>\n

14. <\/strong>“Electron-impact spectroscopy of small metal clusters: Inelastic collisions,” V.Kresin, A.Scheidemann, and W.D.Knight, Phys. Rev. A 44<\/u>, R4106 (1991).<\/p>\n

13. <\/strong>“Loading system for alkali metal sources,” A.Scheidemann and V.Kresin, Rev. Sci. Instrum. 62<\/u>, 2046 (1991).<\/p>\n

12. <\/strong>“Surface and volume collective modes in small clusters and their interaction with single-particle levels,” V.Kresin, Z. Phys. D 19<\/u>, 105 (1991).<\/p>\n

11. <\/strong>“Optical spectra of sodium microclusters,” K.Selby, V.Kresin, J.Masui, M.Vollmer, A.Scheidemann, and W.Knight, Z. Phys. D 19<\/u>, 43 (1991).<\/p>\n

10. <\/strong>“Photoabsorption spectra of sodium clusters,” K.Selby, V.Kresin, J.Masui, M.Vollmer, W. de Heer, A.Scheidemann, and W.Knight, Phys. Rev. B 43<\/u>, 4565 (1991).<\/p>\n

9. <\/strong>“Photoabsorption of small metal clusters: Surface and volume modes,” V.Kresin, Phys. Rev. B 42<\/u>, 3247 (1990).<\/p>\n

8. <\/strong>“Collective resonance frequencies of metal cluster ions,” V.Kresin, Phys. Rev. B 40<\/u>, 12507 (1989).<\/p>\n

7. <\/strong>“Surface plasma resonances in free metal clusters,” K.Selby, M.Vollmer, J.Masui, V.Kresin, W. de Heer, and W.Knight, Phys. Rev. B 40<\/u>, 5417 (1989).<\/p>\n

6. <\/strong>“Investigation of surface plasma resonances in small sodium clusters,” K.Selby, M.Vollmer, J.Masui, V.Kresin, W. de Heer, and W.Knight, Z. Phys. D 12<\/u>, 477 (1989).<\/p>\n

5. <\/strong>“Static electric polarizabilities and collective resonance frequencies of small metal clusters,” V. Kresin, Phys. Rev. B 39<\/u>, 3042 (1989).<\/p>\n

4. <\/strong>“Collective resonance frequencies in metal clusters,” V.Kresin, Phys. Lett. A 133<\/u>, 89 (1988).<\/p>\n

3. <\/strong>“Beam depletion method for measuring velocity distributions of cluster beams,” M.Vollmer, K.Selby, V.Kresin, J.Masui, M.Kruger, and W.Knight, Rev. Sci. Instrum. 59<\/u>, 1965 (1988).<\/p>\n

2. <\/strong>“Electronic structure of small metal clusters: Thomas-Fermi statistical theory,” V.Kresin, Phys. Rev. B 38<\/u>, 3741 (1988).<\/p>\n

1.<\/strong> “Collective dipole oscillations in small sodium clusters,” W. de Heer, K.Selby, V.Kresin, J.Masui, M.Vollmer, A.Ch\u00e2telain, and W.Knight, Phys. Rev. Lett. 59<\/u>, 1805 (1987).<\/p>\n\n\n\n<\/div>\n\n\n <\/div><\/div>\n","protected":false},"excerpt":{"rendered":"","protected":false},"author":17,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_acf_changed":false,"footnotes":""},"class_list":["post-177","page","type-page","status-publish","hentry"],"acf":[],"yoast_head":"\nPublications - Nanocluster Physics Laboratory<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/dornsife.usc.edu\/kresin\/publications\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Publications - Nanocluster Physics Laboratory\" \/>\n<meta property=\"og:url\" content=\"https:\/\/dornsife.usc.edu\/kresin\/publications\/\" \/>\n<meta property=\"og:site_name\" content=\"Nanocluster Physics Laboratory\" \/>\n<meta property=\"article:modified_time\" content=\"2026-02-06T23:36:30+00:00\" \/>\n<meta name=\"twitter:card\" content=\"summary_large_image\" \/>\n<script type=\"application\/ld+json\" class=\"yoast-schema-graph\">{\"@context\":\"https:\/\/schema.org\",\"@graph\":[{\"@type\":\"WebPage\",\"@id\":\"https:\/\/dornsife.usc.edu\/kresin\/publications\/\",\"url\":\"https:\/\/dornsife.usc.edu\/kresin\/publications\/\",\"name\":\"Publications - 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