M. Rader scite author profile

M. Rader

5Publications

100Citation Statements Received

28Citation Statements Given

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Affiliations

University of Tennessee at Knoxville, United States Aviation and Missile Life Cycle Management Command, United States Army Space and Missile Defense Command

Publications

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Exploring the Boundary Conditions for Interview Validity: Meta‐analytic Validity Findings for a New Interview Type

Schmidt¹,

Rader²

1999

Personnel Psychology

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This study uses meta‐analysis of an extensive predictive validity data‐base to explore the boundary conditions for the validity of. the structured interview as presented by McDaniel, Whetzel, Schmidt, and Maurer (1994). The interview examined here differs from traditional structured interviews in being empirically constructed, administered by telephone, and scored later based on a taped transcript. Despite these and other differences, this nontraditional employment interview was found to have essentially the same level of criterion‐related validity for supervisory ratings of job performance reported by McDaniel for other structured employment interviews. These findings suggest that a variety of different approaches to the construction, administration, and scoring of structured employment interviews may lead to comparable levels of validity. We hypothesize that this result obtains because different types of structured interviews all measure to varying degrees constructs with known generalizable validity (e.g., conscientiousness and general mental ability). The interview examined here was also found to be a valid predictor of production records, sales volume, absenteeism, and job tenure.

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A plasma stealth antenna for the US Navy

Alexeff

Kang

Rader³

et al. 1998

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Energy loss from high-energy electrons that pass through a transmission window causes an increase in window temperature. A technique to cool transmission windows that utilizes water under high pressure flowing in capillary ducts is presented. A model for fluid flow in ducts quantifies fluid pressure, water temperature, convective rate, and vapor pressure as a function of distance into a capillary duct subject to uniform heating.The results quantify a design to prevent vapor formation in a capillary duct and provide a limit on net power dissipation. An example quantifies the design of a 5-cm-diameter window that would support 30 mA/cmz continuously at a beam energy of 500 keV.We have received a Phase 1 SBIR contract from the U. S. Navy to develop a plasma stealth antenna. The concept is to use plasma discharge tubes as antenna elements. When the tubes are energized, they become conductors and can transmit and receive radio signals. When they are de-energized, they revert to nonconducting elements (in present tests, glass tubes), and do not reflect probing radio signals. The reflection problem is most acute for probing signals near the resonant frequency of the antenna, which produces a large reflection cross section. A second feature of the plasma antenna, is that it can be reconfigured during operation, by selectively energizing only some of the elements. It can therefore be "steered" electronically. This cannot be done with metal conductor antennas. A third feature of the plasma antenna, is that it can be turned off rapidly, reducing ringing on . pulse transmission.Preliminary tests before receiving the SBIR successfully demonstrated both the operation of the antenna in transmission and reception, and the stealth features on a Navy test range in San Diego. The tubes used in that demonstration were modified neon sign discharge tubes filled with helium, neon, argon, and a neon-argon mixture. More detailed experiments are under way to explore such topics as optimizing the system with respect to antenna-feeder coupling, radiation-pattern peaking, and signal-to-noise ratio.The excitation of a static ( w = 0 ) magnetic field mode in a plasma has been theorized for close to 30 years, but has never been observed experimentally. This mode has also been referred to alternatively as the "picket fence" or "free streaming" mode, reflecting the fact that it is supported by steady state current loops with alternating sense of direction ( k * 0 ) in the plasma. We present PIC simulations and preliminary experimental results of work being done at USC and UCLA to measure the free streaming mode when a moving gaslplasma boundary (e.g., created by a short laser pulse) moves either through a static electric field (e.g., an electric wiggler) or an incident electromagnetic wave. Comparisons of the experimental and simulations results with analytical results are also presented.

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Commercial Applications for Modulators and Pulse Power Technology

Levy¹,

Nikolich

Alexeff

et al. 1992

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Steady-State Orbitron Emissions

Rader

Dyer

Alexeff

1987

IEEE Trans. Plasma Sci.

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Atmospheric plasma induced sterilization and chemical neutralization

Garate

Evans

Gornostaeva

et al.

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We are studying chemical neutralization and surface decontamination using atmospheric plasma discharges. The plasma can be generated using either DC, AC or pulsed discharges. The electrodes which generate the plasma consist of a ground plane and an array of pins. The array is constructed so that various gases, like argon or helium, can be flowed past the pins where the discharge is initiated. Results indicate that the atmospheric plasma is effective in sterilizing surfaces with biological contaminants like E-coli and bacillus. Exposure times of less than four minutes in an air plasma result in a decrease in live colony counts by six orders of magnitude. Results on neutralization of chemical warfare agent simulants will also be presented. The decomposition chemistry, by-product formation, and electrical energy consumption of the system will be discussed. Standard characterization techniques for determining composition of the processed gaseous and liquid effluents, like gas chromatography and mass spectroscopy, are being utilized.

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M. Rader

Exploring the Boundary Conditions for Interview Validity: Meta‐analytic Validity Findings for a New Interview Type

A plasma stealth antenna for the US Navy

Commercial Applications for Modulators and Pulse Power Technology

Steady-State Orbitron Emissions

Atmospheric plasma induced sterilization and chemical neutralization

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