Your search keyword '"Lehtinen, N. G."' showing total 3 results

1. Whistler wave propagation through the ionosphere of Venus

Author

Ministerio de Economía y Competitividad (España), Research Council of Norway, European Research Council, European Commission, Pérez-Invernón, Francisco J., Lehtinen, N. G., Gordillo Vázquez, Francisco J., Luque, Alejandro, Ministerio de Economía y Competitividad (España), Research Council of Norway, European Research Council, European Commission, Pérez-Invernón, Francisco J., Lehtinen, N. G., Gordillo Vázquez, Francisco J., and Luque, Alejandro

Abstract

We investigate the attenuation of whistler waves generated by hypotetical Venusian lightning occurring at the altitude of the cloud layer under different ionospheric conditions. We use the Stanford full-wave method for stratified media of Lehtinen and Inan (2008) to model wave propagation through the ionosphere of Venus. This method calculates the electromagnetic field created by an arbitrary source in a plane-stratified medium (i.e., uniform in the horizontal direction). We see that the existence of holes in electronic densities and the magnetic field configuration caused by solar wind play an important role in the propagation of electromagnetic waves through the Venusian ionosphere. ©2017. American Geophysical Union. All Rights Reserved.

Published

2017

2. Confining the angular distribution of terrestrial gamma ray flash emission

Author

Gjesteland, Thomas, Østgaard, Nikolai, Collier, A. B., Carlson, B. E., Cohen, M. B., and Lehtinen, N. G.

Abstract

publishedVersion

Published

2011

3. Relativistic electrons from sparks in the laboratory.

Author

Østgaard N, Carlson BE, Nisi RS, Gjesteland T, Grøndahl Ø, Skeltved A, Lehtinen NG, Mezentsev A, Marisaldi M, and Kochkin P

Abstract

Discharge experiments were carried out at the Eindhoven University of Technology in 2013. The experimental setup was designed to search for electrons produced in meter-scale sparks using a 1 MV Marx generator. Negative voltage was applied to the high voltage (HV) electrode. Five thin (1 mm) plastic detectors (5 cm 2 each) were distributed in various configurations close to the spark gap. Earlier studies have shown (for HV negative) that X-rays are produced when a cloud of streamers is developed 30-60 cm from the negative electrode. This indicates that the electrons producing the X-rays are also accelerated at this location, that could be in the strong electric field from counterstreamers of opposite polarity. Comparing our measurements with modeling results, we find that ∼300 keV electrons produced about 30-60 cm from the negative electrode are the most likely source of our measurements. A statistical analysis of expected detection of photon bursts by these fiber detectors indicates that only 20%-45% of the detected bursts could be from soft (∼10 keV) photons, which further supports that the majority of detected bursts are produced by relativistic electrons.

Published

2016