Publications
1 T.A. Corcovilos, “Beyond the ABCDs: A better matrix method for geometric optics by using homogeneous coordinates,” American Journal of Physics 91(6), 449–457 (2023).
2 L.J. Metzler, C.T. Farmen, A.N. Fry, M.P. Seibert, K.A. Massari, T.A. Corcovilos, and M.J. van Stipdonk, “Intrinsic Reactivity of [OUCH]+: Apparent Synthesis of [OUS]+ by Reaction with CS2,” Rapid Communications in Mass Spectrometry 36(8), e9260 (2022).
3 M.J. Van Stipdonk, E.H. Perez, L.J. Metzler, A.R. Bubas, T. Corcovilos, and A. Somogyi, “Destruction and reconstruction of UO₂2+ using gas-phase reactions,” Phys. Chem. Chem. Phys. 23(20), 11844–11851 (2021).
4 E. Perez, I. Tatosian, A. Bubas, A. Iacovino, S. Kline, L. Metzler, A. Somogyi, T. Corcovilos, and M. Van Stipdonk, “Creation of [OUF]+ using gas-phase reactions of [UO2(C6F5)]+,” International Journal of Mass Spectrometry 469, 116664 (2021).
5 L.J. Metzler, C.T. Farmen, T.A. Corcovilos, and M.J. Van Stipdonk, “Intrinsic chemistry of [OUCH]+: reactions with H2O, CH3CRN and O2,” Phys. Chem. Chem. Phys. 23(8), 4475–4479 (2021).
6 E. Perez, T. Corcovilos, J. Gibson, J. Martens, G. Berden, J. Oomens, and M. Van Stipdonk, “Isotope labeling and infrared multiple-photon photodissociation investigation of product ions generated by dissociation of [ZnNO3(CH3OH)2]+: Conversion of methanol to formaldehyde,” European Journal of Mass Spectroscopy 25(1), 58–72 (2019).
7 T.A. Corcovilos, and J. Mittal, “Two-dimensional optical quasicrystal potentials for ultracold atom experiments,” Applied Optics 58(9), 2256–2263 (2019).
8 I. Tatosian, L. Metzler, C. Graca, A. Bubas, T. Corcovilos, J. Martens, G. Berden, J. Oomens, and M.J. Van Stipdonk, “Measurement of the asymmetric UO22+ stretching frequency for [UVIO2(F)3]- using IRMPD spectroscopy,” International Journal of Mass Spectrometry 446, 116231 (2019).
9 T.A. Corcovilos, “A Simple game simulating quantum measurements of qubits,” American Journal of Physics 86(7), 510–517 (2018).
10 W.A. de Jong, P.D. Dau, R.E. Wilson, J. Marçalo, M.J. Van Stipdonk, T.A. Corcovilos, G. Berden, J. Martens, J. Oomens, and J.K. Gibson, “Revealing Disparate Chemistries of Protactinium and Uranium. Synthesis of the Molecular Uranium Tetroxide Anion, UO4-,” Inorganic Chemistry 56(6), 3686–3694 (2017).
11 P.D. Dau, D. Rios, Y. Gong, M.C. Michelini, J. Marçalo, D.K. Shuh, M. Mogamman, M.J. Van Stipdonk, T.A. Corcovilos, J.K. Martens, J. Oomens, B. Redlich, and J.K. Gibson, “Synthesis and hydrolysis of uranyl, neptyl and plutonyl gas-phase complexes exhibiting discrete actinide-carbon bonds,” Organometallics 35(9), 1228–1240 (2016).
12 M.J. Van Stipdonk, C. O’Malley, A. Plaviak, D. Martin, J. Pestok, P.A. Mihm, C.G. Hanley, T.A. Corcovilos, J.K. Gibson, and B.J. Bythell, “Dissociation of gas-phase, doubly-charged uranyl-acetone complexes by collisional activation and infrared photodissociation,” International Journal of Mass Spectrometry 396, 22–34 (2016).
13 M.J. Van Stipdonk, C. Hanley, E. Perez, J. Pestok, P. Mihm, and T.A. Corcovilos, “Collision-induced dissociation of uranyl-methoxide and uranyl-ethoxide cations: Formation of UO2H+ and uranyl-alkyl product ions,” Rapid Communications in Mass Spectrometry 30, 1879–1890 (2016).
14 Y. Wang, X. Zhang, T.A. Corcovilos, A. Kumar, and D.S. Weiss, “Coherent addressing of individual neutral atoms in a 3D optical lattice,” Physical Review Letters 115, 043003 (2015).
15 X. Li, T.A. Corcovilos, Y. Wang, and D.S. Weiss, “3D Projection Sideband Cooling,” Physical Review Letters 108(10), 103001 (2012).
16 P.M. Duarte, R.A. Hart, J.M. Hitchcock, T.A. Corcovilos, T.-L. Yang, A. Reed, and R.G. Hulet, “All-optical production of a lithium quantum gas using narrow-line laser cooling,” Physical Review A 84(6), 061406 (2011).
17 T.A. Corcovilos, S.K. Baur, J.M. Hitchcock, E.J. Mueller, and R.G. Hulet, “Detecting antiferromagnetism of atoms in an optical lattice via optical Bragg scattering,” Physical Review A 81(1), 013415 (2010).
18 Y.P. Chen, J. Hitchcock, D. Dries, M. Junker, C. Welford, S.E. Pollack, T.A. Corcovilos, and R.G. Hulet, “Experimental studies of Bose–Einstein condensates in disorder,” Physica D: Nonlinear Phenomena 238(15), 1321–1325 (2009).
19 S.E. Pollack, D. Dries, M. Junker, Y.P. Chen, T.A. Corcovilos, and R.G. Hulet, “Extreme tunability of interactions in a 7Li Bose-Einstein condensate,” Physical Review Letters 102(9), 090402 (2009).
21 T.A. Corcovilos, Fluid Phase Thermodynamics: I) Nucleate Pool Boiling of Oxygen Under Magnetically Enhanced Gravity and II) Superconducting Cavity Resonators for High-Stability Frequency References and Precision Density Measurements of Helium-4 Gas, PhD, California Institute of Technology, 2007.
22 T.A. Corcovilos, D.M. Strayer, N. Asplund, and N.-C. Yeh, “Multi-frequency Superconducting Cavity Stabilized Oscillators (SCSO) for quantum-gas measurements and gravitational physics,” Journal of Low Temperature Physics 134(1-2), 431–436 (2004).
23 N.-C. Yeh, C.-T. Chen, A.D. Beyer, C.R. Hughes, T.A. Corcovilos, and S.I. Lee, “Experimental investigation of the asymmetric spectroscopic characteristics of electron-and hole-doped cuprates,” Physica C: Superconductivity 408–410, 792–793 (2004).
25 A.J. Sanders, A.D. Alexeev, S.W. Allison, V. Antonov, K.A. Bronnikov, J.W. Campbell, M.R. Cates, T.A. Corcovilos, D.D. Earl, T. Gadfort, G.T. Gillies, M.J. Harris, N.I. Kolosnitsyn, M.Yu. Konstantinov, V.N. Melnikov, R.J. Newby, R.G. Schunk, and L.L. Smalley, “Project SEE (Satellite Energy Exchange): An international effort to develop a space-based mission for precise measurements of gravitation,” Classical and Quantum Gravity 17(12), 2331 (2000).
26 A.J. Sanders, A.D. Alexeev, S.W. Allison, K.A. Bronnikov, J.W. Campbell, M.R. Cates, T.A. Corcovilos, D.D. Earl, T. Gadfort, G.T. Gillies, M.J. Harris, N.I. Kolosnitsyn, M.Yu. Konstantinov, V.N. Melnikov, R.J. Newby, R.G. Schunk, and L.L. Smalley, “Project SEE (Satellite Energy Exchange): Proposal for space-based gravitational measurements,” Measurement Science and Technology 10(6), 514 (1999).