741 research outputs found
VUV Fourier-transform absorption study of the Lyman and Werner bands in D2
An extensive survey of the D2 absorption spectrum has been performed with the
high-resolution VUV Fourier-transform spectrometer of the DESIRS beamline at
the SOLEIL synchrotron. The frequency range of 90 000-119 000 cm-1 covers the
full depth of the potential wells of the B 1{\Sigma}+u, B' 1{\Sigma}+u, and C
1{\Pi}u electronic states up to the D(1s) + D(2\ell) dissociation limit.
Improved level energies of rovibrational levels have been determined up to
respectively v = 51, v = 13, and v = 20. Highest resolution is achieved by
probing absorption in a molecular gas jet with slit geometry, as well as in a
liquid helium cooled static gas cell, resulting in line widths of ~0.35 cm-1.
Extended calibration methods are employed to extract line positions of D2 lines
at absolute accuracies of 0.03 cm-1. The D1{\Pi}u and B" 1{\Sigma}+u electronic
states correlate with the D(1s) + D(3\ell) dissociation limit, but support a
few vibrational levels below the second dissociation limit, respectively v =
0-3 and v = 0-1, and are also included in the presented study. The complete set
of resulting level energies is the most comprehensive and accurate data set for
D2. The observations are compared with previous studies, both experimental and
theoretical.Comment: 13 pages, 6 figures. The second set of Tables (Tables I-IV after the
references), is auxiliary materia
Characterisation of Water Uptake and swelling Force of pharmaceutical Tablets
Tablets are the most common dosage form in the pharmaceutical industry. Rapid drug release is ensured by quick tablet
disintegration which is caused by the absorption of water into the tablet. Therefore, water uptake and subsequent volume
expansion are necessary requirements for tablet disintegration. In this work, binary mixtures of excipients were compacted
to tablets with varying structural and mechanical properties to determine the influence of formulation and process
parameters on water uptake and resulting swelling force of tablets. Results showed strong influences of disintegrant
concentration as well as tablet porosity on both absorbed amount of water and acting swelling force. Obtained results
revealed that water uptake and swelling force measurements are useful tools for an improved understanding of tablet
disintegration
Elliptic flow in Au+Au collisions at sqrt sNN = 130 GeV
Elliptic flow from nuclear collisions is a hadronic observable sensitive to the early stages of system evolution. We report first results on elliptic flow of charged particles at midrapidity in Au+Au collisions at sqrt[sNN] = 130 GeV using the STAR Time Projection Chamber at the Relativistic Heavy Ion Collider. The elliptic flow signal, v2, averaged over transverse momentum, reaches values of about 6% for relatively peripheral collisions and decreases for the more central collisions. This can be interpreted as the observation of a higher degree of thermalization than at lower collision energies. Pseudorapidity and transverse momentum dependence of elliptic flow are also presented.alle Autoren: K. H. Ackermann19, N. Adams28, C. Adler12, Z. Ahammed27, S. Ahmad28, C. Allgower13, J. Amsbaugh34, M. Anderson6, E. Anderssen17, H. Arnesen3, L. Arnold14, G. S. Averichev10, A. Baldwin16, J. Balewski13, O. Barannikova10,27, L. S. Barnby16, J. Baudot14, M. Beddo1, S. Bekele24, V. V. Belaga10, R. Bellwied35, S. Bennett35, J. Bercovitz17, J. Berger12, W. Betts24, H. Bichsel34, F. Bieser17, L. C. Bland13, M. Bloomer17, C. O. Blyth4, J. Boehm17, B. E. Bonner28, D. Bonnet14, R. Bossingham17, M. Botlo3, A. Boucham30, N. Bouillo30, S. Bouvier30, K. Bradley17, F. P. Brady6, E. S. Braithwaite2, W. Braithwaite2, A. Brandin21, R. L. Brown3, G. Brugalette34, C. Byrd2, H. Caines24, M. Calderón de la Barca Sánchez36, A. Cardenas27, L. Carr34, J. Carroll17, J. Castillo30, B. Caylor17, D. Cebra6, S. Chatopadhyay35, M. L. Chen3, W. Chen3, Y. Chen7, S. P. Chernenko10, M. Cherney9, A. Chikanian36, B. Choi31, J. Chrin9, W. Christie3, J. P. Coffin14, L. Conin30, C. Consiglio3, T. M. Cormier35, J. G. Cramer34, H. J. Crawford5, V. I. Danilov10, D. Dayton3, M. DeMello28, W. S. Deng16, A. A. Derevschikov26, M. Dialinas30, H. Diaz3, P. A. DeYoung8, L. Didenko3, D. Dimassimo3, J. Dioguardi3, W. Dominik32, C. Drancourt30, J. E. Draper6, V. B. Dunin10, J. C. Dunlop36, V. Eckardt19, W. R. Edwards17, L. G. Efimov10, T. Eggert19, V. Emelianov21, J. Engelage5, G. Eppley28, B. Erazmus30, A. Etkin3, P. Fachini29, C. Feliciano3, D. Ferenc6, M. I. Ferguson7, H. Fessler19, E. Finch36, V. Fine3, Y. Fisyak3, D. Flierl12, I. Flores5, K. J. Foley3, D. Fritz17, N. Gagunashvili10, J. Gans36, M. Gazdzicki12, M. Germain14, F. Geurts28, V. Ghazikhanian7, C. Gojak14, J. Grabski33, O. Grachov35, M. Grau3, D. Greiner17, L. Greiner5, V. Grigoriev21, D. Grosnick1, J. Gross9, G. Guilloux30, E. Gushin21, J. Hall35, T. J. Hallman3, D. Hardtke17, G. Harper34, J. W. Harris36, P. He5, M. Heffner6, S. Heppelmann25, T. Herston27, D. Hill1, B. Hippolyte14, A. Hirsch27, E. Hjort27, G. W. Hoffmann31, M. Horsley36, M. Howe34, H. Z. Huang7, T. J. Humanic24, H. Hümmler19, W. Hunt13, J. Hunter17, G. J. Igo7, A. Ishihara31, Yu. I. Ivanshin11, P. Jacobs17, W. W. Jacobs13, S. Jacobson17, R. Jared17, P. Jensen31, I. Johnson17, P. G. Jones4, E. Judd5, M. Kaneta17, M. Kaplan8, D. Keane16, V. P. Kenney23*, A. Khodinov21, J. Klay6, S. R. Klein17, A. Klyachko13, G. Koehler17, A. S. Konstantinov26, V. Kormilitsyne7,26, L. Kotchenda21, I. Kotov24, A. D. Kovalenko10, M. Kramer22, P. Kravtsov21, K. Krueger1, T. Krupien3, P. Kuczewski3, C. Kuhn14, G. J. Kunde36, C. L. Kunz8, R. Kh. Kutuev11, A. A. Kuznetsov10, L. Lakehal-Ayat30, J. Lamas-Valverde28, M. A. C. Lamont4, J. M. Landgraf3, S. Lange12, C. P. Lansdell31, B. Lasiuk36, F. Laue24, A. Lebedev3, T. LeCompte1, W. J. Leonhardt3, V. M. Leontiev26, P. Leszczynski33, M. J. LeVine3, Q. Li35, Q. Li17, Z. Li3, C.-J. Liaw3, J. Lin9, S. J. Lindenbaum22, V. Lindenstruth5, P. J. Lindstrom5, M. A. Lisa24, H. Liu16, T. Ljubicic3, W. J. Llope28, G. LoCurto19, H. Long7, R. S. Longacre3, M. Lopez-Noriega24, D. Lopiano1, W. A. Love3, J. R. Lutz14, D. Lynn3, L. Madansky15§, R. Maier19, R. Majka36, A. Maliszewski33, S. Margetis16, K. Marks17, R. Marstaller19, L. Martin30, J. Marx17, H. S. Matis17, Yu. A. Matulenko26, E. A. Matyushevski10, C. McParland17, T. S. McShane9, J. Meier9, Yu. Melnick26, A. Meschanin26, P. Middlekamp3, N. Mikhalin7,26, B. Miller3, Z. Milosevich8, N. G. Minaev26, B. Minor17, J. Mitchell15, E. Mogavero3, V. A. Moiseenko11, D. Moltz17, C. F. Moore31, V. Morozov17, R. Morse17, M. M. de Moura29, M. G. Munhoz29, G. S. Mutchler28, J. M. Nelson4, P. Nevski3, T. Ngo7, M. Nguyen3, T. Nguyen3, V. A. Nikitin11, L. V. Nogach26, T. Noggle17, B. Norman16, S. B. Nurushev26, T. Nussbaum28, J. Nystrand17, G. Odyniec17, A. Ogawa25, C. A. Ogilvie18, K. Olchanski3, M. Oldenburg19, D. Olson17, G. A. Ososkov10, G. Ott31, D. Padrazo3, G. Paic24, S. U. Pandey35, Y. Panebratsev10, S. Y. Panitkin16, A. I. Pavlinov26, T. Pawlak33, M. Pentia10, V. Perevotchikov3, W. Peryt33, V. A Petrov11, W. Pinganaud30, S. Pirogov7, E. Platner28, J. Pluta33, I. Polk3, N. Porile27, J. Porter3, A. M. Poskanzer17, E. Potrebenikova10, D. Prindle34, C. Pruneau35, J. Puskar-Pasewicz13, G. Rai17, J. Rasson17, O. Ravel30, R. L. Ray31, S. V. Razin10,13, D. Reichhold9, J. Reid34, R. E. Renfordt12, F. Retiere30, A. Ridiger21, J. Riso35, H. G. Ritter17, J. B. Roberts28, D. Roehrich12, O. V. Rogachevski10, J. L. Romero6, C. Roy30, D. Russ8, V. Rykov35, I. Sakrejda17, R. Sanchez7, Z. Sandler7, J. Sandweiss36, P. Sappenfield28, A. C. Saulys3, I. Savin11, J. Schambach31, R. P. Scharenberg27, J. Scheblien3, R. Scheetz3, R. Schlueter17, N. Schmitz19, L. S. Schroeder17, M. Schulz3,19, A. Schüttauf19, J. Sedlmeir3, J. Seger9, D. Seliverstov21, J. Seyboth19, P. Seyboth19, R. Seymour34, E. I. Shakaliev10, K. E. Shestermanov26, Y. Shi7, S. S. Shimanskii10, D. Shuman17, V. S. Shvetcov11, G. Skoro10, N. Smirnov36, L. P. Smykov10, R. Snellings17, K. Solberg13, J. Sowinski13, H. M. Spinka1, B. Srivastava27, E. J. Stephenson13, R. Stock12, A. Stolpovsky35, N. Stone3, R. Stone17, M. Strikhanov21, B. Stringfellow27, H. Stroebele12, C. Struck12, A. A. P. Suaide29, E. Sugarbaker24, C. Suire14, T. J. M. Symons17, J. Takahashi29, A. H. Tang16, A. Tarchini14, J. Tarzian17, J. H. Thomas17, V. Tikhomirov21, A. Szanto de Toledo29, S. Tonse17, T. Trainor34, S. Trentalange7, M. Tokarev10, M. B. Tonjes20, V. Trofimov21, O. Tsai7, K. Turner3, T. Ullrich36, D. G. Underwood1, I. Vakula7, G. Van Buren3, A. M. VanderMolen20, A. Vanyashin17, I. M. Vasilevski11, A. N. Vasiliev26, S. E. Vigdor13, G. Visser5, S. A. Voloshin35, C. Vu17, F. Wang27, H. Ward31, D. Weerasundara34, R. Weidenbach17, R. Wells17, R. Wells24, T. Wenaus3, G. D. Westfall20, J. P. Whitfield8, C. Whitten, Jr.7, H. Wieman17, R. Willson24, K. Wilson35, J. Wirth17, J. Wisdom7, S. W. Wissink13, R. Witt16, J. Wolf17, L. Wood6, N. Xu17, Z. Xu36, A. E. Yakutin26, E. Yamamoto7, J. Yang7, P. Yepes28, A. Yokosawa1, V. I. Yurevich10, Y. V. Zanevski10, J. Zhang17, W. M. Zhang16, J. Zhu34, D. Zimmerman17, R. Zoulkarneev11, and A. N. Zubare
Virtue and the Health Professions
Presented to the WMU Center for the Study of Ethics in Society, February 8, 1991
Observation of vanishing charge dispersion of a nearly-open superconducting island
Isolation from the environment determines the extent to which charge is
confined on an island, which manifests as Coulomb oscillations such as charge
dispersion. We investigate the charge dispersion of a nanowire transmon hosting
a quantum dot in the junction. We observe rapid suppression of the charge
dispersion with increasing junction transparency, consistent with the predicted
scaling law which incorporates two branches of the Josephson potential. We find
improved qubit coherence times at the point of highest suppression, suggesting
novel approaches for building charge-insensitive qubits
Preparation for the Solar system observations with Herschel: Simulation of Jupiter observations with PACS
Observations of the water inventory as well as other chemically important
species on Jupiter will be performed in the frame of the guaranteed time key
project of the Herschel Space Observatory entitled "Water and related chemistry
in the Solar system". Among other onboard instruments, PACS (Photodetector
Array Camera and Spectrometer) will provide new data of the spectral atlas in a
wide region covering the far-infrared and submillimetre domains, with an
improved spectral resolution and a higher sensitivity compared to previous
observations carried out by Cassini/CIRS (Composite InfraRed Spectrometer) and
by ISO (Infrared Space Observatory). In order to optimise the observational
plan and to prepare for the data analysis, we have simulated the expected
spectra of PACS Jupiter observations. Our simulation shows that PACS will
promisingly detect several H2O emission lines. As PACS is capable of spatially
resolving the Jovian disk, we will be able to discern the external oxygen
sources in the giant planets by exploring the horizontal distribution of water.
In addition to H2O lines, some absorption lines due to tropospheric CH4, HD,
PH3 and NH3 lines will be observed with PACS. Furthermore, owing to the high
sensitivity of the instrument, the current upper limit on the abundance of
hydrogen halides such as HCl will be also improved.Comment: to be published in Planetary and Space Scienc
A gate-tunable, field-compatible fluxonium
Circuit quantum electrodynamics, where photons are coherently coupled to
artificial atoms built with superconducting circuits, has enabled the
investigation and control of macroscopic quantum-mechanical phenomena in
superconductors. Recently, hybrid circuits incorporating semiconducting
nanowires and other electrostatically-gateable elements have provided new
insights into mesoscopic superconductivity. Extending the capabilities of
hybrid flux-based circuits to work in magnetic fields would be especially
useful both as a probe of spin-polarized Andreev bound states and as a possible
platform for topological qubits. The fluxonium is particularly suitable as a
readout circuit for topological qubits due to its unique persistent-current
based eigenstates. In this Letter, we present a magnetic-field compatible
hybrid fluxonium with an electrostatically-tuned semiconducting nanowire as its
non-linear element. We operate the fluxonium in magnetic fields up to 1T and
use it to observe the -Josephson effect. This combination of
gate-tunability and field-compatibility opens avenues for the exploration and
control of spin-polarized phenomena using superconducting circuits and enables
the use of the fluxonium as a readout device for topological qubits
Особенности личности страдающих гашишной зависимостью мужчин
Рассмотрен личностный профиль мужчин, страдающих гашишной зависимостью. Показано, что длительное употребление наркотика ведет к формированию шизотипической личности.The personality profile of men with hashish addiction is described. Prolonged use of drugs is shown to cause formation of schizothymic personality
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