Institution
University of Colorado Colorado Springs
Education•Colorado Springs, Colorado, United States•
About: University of Colorado Colorado Springs is a education organization based out in Colorado Springs, Colorado, United States. It is known for research contribution in the topics: Population & Poison control. The organization has 6664 authors who have published 10872 publications receiving 323416 citations. The organization is also known as: UCCS & University of Colorado at Colorado Springs.
Topics: Population, Poison control, Thin film, Capacitor, Ferroelectricity
Papers published on a yearly basis
Papers
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14 Jul 1997TL;DR: In this article, a mixture of liquid precursors containing compounds used in chemical vapor deposition, transported in carrier gas through tubing at ambient temperature, passed into a heated zone where the mist droplets are gasified at a temperature of between 100° C. and 200° C, which is lower than the decomposition temperature of the precursor compounds.
Abstract: A mist is generated by a venturi from liquid precursors containing compounds used in chemical vapor deposition, transported in carrier gas through tubing at ambient temperature, passed into a heated zone where the mist droplets are gasified at a temperature of between 100° C. and 200° C., which is lower than the decomposition temperature of the precursor compounds. The gasified liquid is injected through an inlet assembly into a deposition reactor in which there is a substrate heated to from 400° C. to 600° C., on which the gasified compounds decompose and form a thin film of layered superlattice compound.
105 citations
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TL;DR: A framework of various job anchors is utilized to examine how a sample of IS personnel regard incentives provided by employers and the importance of these in assessing the employee's intent to leave.
105 citations
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TL;DR: The results indicated that the Cosmed K2 instrument is reliable and valid for measurement of VO2 (l.min-1) during laboratory exercise testing at submaximum and maximum intensities.
Abstract: The purpose of this study was to measure the validity and reliability of a portable telemetry system (Cosmed K2) for measurement of oxygen consumption (VO2) during a laboratory exercise test at submaximum and maximum intensities. Twenty subjects performed three testing sessions on a treadmill on three consecutive days. Each testing session consisted of a submaximal and a maximal exercise test. On one day, VO2 was determined with the conventional Douglas bag method, and on the other two days, VO2 was determined using the Cosmed K2 system. Utilization of the Douglas bag method or the Cosmed K2 was randomly assigned. The results indicated that the Cosmed K2 instrument is reliable and valid (p > 0.05) for measurement of VO2 (l.min-1) during laboratory exercise testing at submaximum and maximum intensities. The assumption made by the K2 apparatus of a constant respiratory gas exchange ratio (R) of 1.00 did not have a significant influence on VO2 measurements.
105 citations
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25 Sep 2008TL;DR: In this article, a system and method for securing access to network resources are described, which can include associating a network element with a set of data, and configuring a portion of the data to be responsive to a first subset of access rights.
Abstract: A system and method for securing access to network resources are described. One embodiment includes an exemplary method for securing access to a network element and can include associating a network element with a set of data, and configuring a portion of the data to be responsive to a first subset of access rights. In accordance with other embodiments, an exemplary method and system provide for selection of an appropriate security to govern access by a user to network resources.
105 citations
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TL;DR: In this paper, a power supply specifically designed for capacitor-charging applications that uses a series-resonant circuit topology, a constant on-time/variable frequency control scheme, and zero-current switching techniques has been developed.
Abstract: A power supply specifically designed for capacitor-charging applications that uses a series-resonant circuit topology, a constant on-time/variable frequency control scheme, and zero-current switching techniques has been developed The performance of this capacitor-charging power supply (CCPS) has been evaluated in the laboratory by charging several values of load capacitance at various repetition rates The CCPS has charged a 1 mu F capacitor from 0 to 1500 V DC in 750 mu s, exhibiting a charging power of 1500 J/s This operation has been repeated at a rate of 800 charges per second, which corresponds to an average power output of 900 W A 10 mu F capacitor has been charged from 0-1500 V DC in 8 ms These results indicate that this design is feasible for use in capacitor-charging applications >
104 citations
Authors
Showing all 6706 results
Name | H-index | Papers | Citations |
---|---|---|---|
Jeff Greenberg | 105 | 542 | 43600 |
James F. Scott | 99 | 714 | 58515 |
Martin Wikelski | 89 | 420 | 25821 |
Neil W. Kowall | 89 | 279 | 34943 |
Ananth Dodabalapur | 85 | 394 | 27246 |
Tom Pyszczynski | 82 | 246 | 30590 |
Patrick S. Kamath | 78 | 466 | 31281 |
Connie M. Weaver | 77 | 473 | 30985 |
Alejandro Lucia | 75 | 680 | 23967 |
Michael J. McKenna | 70 | 356 | 16227 |
Timothy J. Craig | 69 | 458 | 18340 |
Sheldon Solomon | 67 | 150 | 23916 |
Michael H. Stone | 65 | 370 | 16355 |
Christopher J. Gostout | 65 | 334 | 13593 |
Edward T. Ryan | 60 | 303 | 11822 |