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Lakin, Wilbur ; Gamblin, Rodger L. ; Oertel, Goetz K. ; [et al.]

AIP Publishing ; 1968

In: Physics Today Vol. 21, No. 2 ( 1968-02-01), p. 9-17

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In: Physics Today, AIP Publishing, Vol. 21, No. 2 ( 1968-02-01), p. 9-17

Type of Medium: Online Resource

ISSN: 0031-9228 , 1945-0699

URL: Article

DOI: 10.1063/1.3034799

RVK:

UA 1000

Language: English

Publisher: AIP Publishing

Publication Date: 1968

detail.hit.zdb_id: 2031187-4

detail.hit.zdb_id: 208863-0

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Spectroscopic and theoretical studies of ThCl and ThCl+

VanGundy, Robert A. ; Bartlett, Joshua H. ; Heaven, Michael C. ; [et al.]

AIP Publishing ; 2017

In: The Journal of Chemical Physics Vol. 146, No. 5 ( 2017-02-07)

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In: The Journal of Chemical Physics, AIP Publishing, Vol. 146, No. 5 ( 2017-02-07)

Abstract: The electronic structures of ThCl and ThCl+ have been examined using laser induced fluorescence and two-photon ionization techniques. Rotationally resolved spectra, combined with the predictions from relativistic electronic structure calculations, show that the ground state of the neutral molecule is Th+(7s26d)Cl−, X2Δ3/2. Dispersed fluorescence spectra for ThCl revealed the ground state vibrational levels v = 0-10 and low energy electronic states that also originate from the atomic ion 7s26d configuration. Pulsed field ionization—zero kinetic energy photoelectron spectroscopy established an ionization energy (IE) for ThCl of 51 344(5) cm−1, and the ThCl+ vibrational term energies of the v = 1-3 levels. The zero-point level of the first electronically excited state was found at 949(2) cm−1. Comparisons with high-level theoretical results indicate that the ground and excited states are Th2+(7s6d)Cl− X3Δ1 and Th2+(7s2)Cl− Σ+1, respectively. Relativistic coupled cluster composite thermochemistry calculations yielded an IE within 1.2 kcal/mol of experiment and a bond dissociation energy (118.3 kcal/mol) in perfect agreement with previous experiments.

Type of Medium: Online Resource

ISSN: 0021-9606 , 1089-7690

URL: Article

DOI: 10.1063/1.4975070

Language: English

Publisher: AIP Publishing

Publication Date: 2017

detail.hit.zdb_id: 3113-6

detail.hit.zdb_id: 1473050-9

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Second Opinions on ‘Pathological Science’

Cooper, Christopher ; Sturrock, Peter A. ; Rao, K. Ramakrishna ; [et al.]

AIP Publishing ; 1990

In: Physics Today Vol. 43, No. 3 ( 1990-03-01), p. 13-112

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In: Physics Today, AIP Publishing, Vol. 43, No. 3 ( 1990-03-01), p. 13-112

Type of Medium: Online Resource

ISSN: 0031-9228 , 1945-0699

URL: Article

DOI: 10.1063/1.2810480

RVK:

UA 1000

Language: English

Publisher: AIP Publishing

Publication Date: 1990

detail.hit.zdb_id: 2031187-4

detail.hit.zdb_id: 208863-0

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Oxygen and carbon dioxide transport in time-dependent blood flow past fiber rectangular arrays

Zierenberg, Jennifer R. ; Fujioka, Hideki ; Hirschl, Ronald B. ; [et al.]

AIP Publishing ; 2009

In: Physics of Fluids Vol. 21, No. 3 ( 2009-03-01)

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In: Physics of Fluids, AIP Publishing, Vol. 21, No. 3 ( 2009-03-01)

Abstract: The influence of time-dependent flows on oxygen and carbon dioxide transport for blood flow past fiber arrays arranged in in-line and staggered configurations was computationally investigated as a model for an artificial lung. Both a pulsatile flow, which mimics the flow leaving the right heart and passing through a compliance chamber before entering the artificial lung, and a right ventricular flow, which mimics flow leaving the right heart and directly entering the artificial lung, were considered in addition to a steady flow. The pulsatile flow was modeled as a sinusoidal perturbation superimposed on a steady flow while the right ventricular flow was modeled to accurately depict the period of flow acceleration (increasing flow) and deceleration (decreasing flow) during systole followed by zero flow during diastole. It was observed that the pulsatile flow yielded similar gas transport as compared to the steady flow, while the right ventricular flow resulted in smaller gas transport, with the decrease increasing with Re. The pressure drop across the fiber array (a measure of the resistance), work (an indicator of the work required of the right heart), and shear stress (a measure of potential blood cell activation and damage) are lowest for steady flow, followed by pulsatile flow, and then right ventricular flow. The pressure drop, work, shear stress, and Sherwood numbers (a measure of the gas transport efficiency) decrease with increasing porosity and are smaller for AR & lt;1 as compared to AR & gt;1 (AR is the distance between fibers in the flow direction/distance between fibers in direction perpendicular to flow), although for small porosities the Sherwood numbers are of similar magnitude. In general, for any fiber array geometry, high pressure drop, work, and shear stresses correlate with high Sherwood numbers, and low pressure drop, work, and shear stresses correlate with low Sherwood numbers creating a need for a compromise between pressure drop/work/shear stresses and gas transport.

Type of Medium: Online Resource

ISSN: 1070-6631 , 1089-7666

URL: Article

DOI: 10.1063/1.3056413

Language: English

Publisher: AIP Publishing

Publication Date: 2009

detail.hit.zdb_id: 1472743-2

detail.hit.zdb_id: 241528-8

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Pulsatile flow and mass transport past a circular cylinder

Zierenberg, Jennifer R. ; Fujioka, Hideki ; Suresh, Vinod ; [et al.]

AIP Publishing ; 2006

In: Physics of Fluids Vol. 18, No. 1 ( 2006-01-01)

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In: Physics of Fluids, AIP Publishing, Vol. 18, No. 1 ( 2006-01-01)

Abstract: The mass transport of a pulsatile free-stream flow past a single circular cylinder is investigated as a building block for an artificial lung device. The free stream far from the cylinder is represented by a time-periodic (sinusoidal) component superimposed on a steady velocity. The dimensionless parameters of interest are the steady Reynolds number (Re), Womersley parameter (α), sinusoidal amplitude (A), and the Schmidt number (Sc). The ranges investigated in this study are 5⩽Re⩽40, 0.25⩽α⩽4, 0.25⩽A⩽0.75, and Sc=1000. A pair of vortices downstream of the cylinder is observed in almost all cases investigated. These vortices oscillate in size and strength as α and A are varied. For α & lt;αc, where αc=0.005A−1.13Re1.33, the vortex is always attached to the cylinder (persistent); while for α & gt;αc, the vortex is attached to the cylinder only during part of a time cycle (intermittent). The time-averaged Sherwood number, Sh̿, is found to be largely influenced by the steady Reynolds number, increasing approximately as Re1∕2. For α=0.25, Sh̿ is less than the steady (α=0, A=0) value and decreases with increasing A. For α=2 and α=4, Sh̿ is greater than the steady value and increases with increasing A. These qualitatively opposite effects of pulsatility are discussed in terms of quasisteady versus unsteady transport. The maximum increase over steady transport due to pulsatility varies between 14.4% and 20.9% for Re=10-40, α=4, and A=0.75.

Type of Medium: Online Resource

ISSN: 1070-6631 , 1089-7666

URL: Article

DOI: 10.1063/1.2164475

Language: English

Publisher: AIP Publishing

Publication Date: 2006

detail.hit.zdb_id: 1472743-2

detail.hit.zdb_id: 241528-8

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