K.W. Reed scite author profile

A simple method for the determination of doping type in nanomaterials based on electrical response to humidity Appl. Phys. Lett. 101, 142110 (2012) Tunable nonlinear optical absorption in semiconductor nanocrystals doped with transition metal ions J. Appl. Phys. 112, 074305 (2012) Determination of the effective distribution coefficient (K) for silicon impurities J. Renewable Sustainable Energy 4, 043118 (2012) Lattice mismatch and crystallographic tilt induced by high-dose ion-implantation into 4H-SiC J. Appl. Phys. 111, 103715 (2012) Calcium doped graphane as a hydrogen storage material

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Results of Initial Testing of the Four Stage Rhepp Accelerator

Johnson¹,

Reed²,

Harjes³

et al. 1993

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The low power checkout of the Repetitive High Energy Pulsed rcr (RHEPP) pulse forming line (PFL) and linear induction age adder (LIVA) is complete. The accelerator has four LIVA ties driven via coaxial cables from the PFL that utilizes magnetic ching to provide a 250-kV, 60-11s output pulse. The PFL is titively charged by a ten stage Marx generator to operate from le shot to five Hz. Results from these tests of the initial four c RHEPP accelerator are presented and compared with design Ilations. Data from a resistive cavity load and from preliminary tron diode experiments are included. While core temperatures iin low during five Hz operation, they are monitored and pared to extrapolated predictions from the design modeling. ormance of the Metglas [ l ] magnetic switches and blocking s, the voltage addition in the four LIVA cavities, and system iencies are discussed. Sources of discrepancies from the inal design models are identified, and improved models that Nunt for the discrepancies are presented. Improved performance ntial bascd on these models is discussed. Plans for future testing le 1-MV system up to 120 kW at 120 Hz and for the full system ten LfVA cavities are presented.

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K.W. Reed

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