_version_ 1867167659040178176
author Mühleisen, R
Riekert, H
author_facet Mühleisen, R
Riekert, H
collection Datos científicos de ciencias marinas y ambientales
contents One main point of the air electric investigations at the atlantic 1965 and 1969 was the record of the potential gradient in the troposphere with free and captive balloon ascents. The course of the field vs. altitude above the sea differs from that over land. A remarkable enlargement of the field strength occurs at the altitude of the passat inversion. The electric voltage between ionosphere and earth could be obtained by integrating the potential gradient over the altitude. Such computations have been made by balloon ascents simultaneous over the ocean and at Weissenau (South Germany), From 15 simultaneous measurements the average value of the potential of the ionosphere over the ocean is 214 kV and over South Germany 216 kV, that means very close together. Because of the small differences also between the single values it can be concluded that in generally the ionosphere potential has an equal value over these both places at one moment. From the potential of the ionosphere VI, the field strength E0 and the conductivity lamda o, both measured at the sea surface, the columnar resistance R could be derived to 2.4 x 10**17 Ohm x m**2. By correlation of the single values of the ionosphere potential with the potential gradient measured simultaneously at the surface of the sea a linear proportional relationship exists; it follows from this result, that R is nearly constant. The mean value of the air-earth current density over the ocean could be calculated by using the measured values of the small ion density with respect to the electrode effect prooved at the equator station. The current density was only 0.9 x 10**-12 A/m**2, which means, a three and a half times smaller value than estimated by Carnegie and accepted up to now. Therefore it seems to be necessary to correct the former calculations of the global current balance.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_666396
institution PANGAEA
language en
publishDate 1970
publisher PANGAEA
record_format pangaea
spellingShingle Atmospheric electric measurement in the troposphere and stratosphere on the Atlantic Ocean during 1965 and 1969
Mühleisen, R
Riekert, H
Atlantic; GARP - APEX/ATEX; IQSY - Jahre der ruhigen Sonne, Atlantische Expedition 1965; M16; M16_M31; M16_M32; M16_M33; M16_M34; M16_M35; M16_M36; M16_M37; M16_M38; M16_M39; M16_M40; M16_M41; M16_M42; M16_M43; M16_M44; M16_M45; M16_M46; M16_M47; M16_M48; M16_M49; M16_M50; M16_M51; M16_M52; M16_M53; M16_M54; M2; M2_M01; M2_M02; M2_M03; M2_M04; M2_M05; M2_M06; M2_M07; M2_M09; M2_M11; M2_M12; M2_M14; M2_M16; M2_M17; M2_M18; M2_M20; M2_M21; M2_M22; M2_M24; Meteor (1964); RADIO; Radiosonde
One main point of the air electric investigations at the atlantic 1965 and 1969 was the record of the potential gradient in the troposphere with free and captive balloon ascents. The course of the field vs. altitude above the sea differs from that over land. A remarkable enlargement of the field strength occurs at the altitude of the passat inversion. The electric voltage between ionosphere and earth could be obtained by integrating the potential gradient over the altitude. Such computations have been made by balloon ascents simultaneous over the ocean and at Weissenau (South Germany), From 15 simultaneous measurements the average value of the potential of the ionosphere over the ocean is 214 kV and over South Germany 216 kV, that means very close together. Because of the small differences also between the single values it can be concluded that in generally the ionosphere potential has an equal value over these both places at one moment. From the potential of the ionosphere VI, the field strength E0 and the conductivity lamda o, both measured at the sea surface, the columnar resistance R could be derived to 2.4 x 10**17 Ohm x m**2. By correlation of the single values of the ionosphere potential with the potential gradient measured simultaneously at the surface of the sea a linear proportional relationship exists; it follows from this result, that R is nearly constant. The mean value of the air-earth current density over the ocean could be calculated by using the measured values of the small ion density with respect to the electrode effect prooved at the equator station. The current density was only 0.9 x 10**-12 A/m**2, which means, a three and a half times smaller value than estimated by Carnegie and accepted up to now. Therefore it seems to be necessary to correct the former calculations of the global current balance.
title Atmospheric electric measurement in the troposphere and stratosphere on the Atlantic Ocean during 1965 and 1969
topic Atlantic; GARP - APEX/ATEX; IQSY - Jahre der ruhigen Sonne, Atlantische Expedition 1965; M16; M16_M31; M16_M32; M16_M33; M16_M34; M16_M35; M16_M36; M16_M37; M16_M38; M16_M39; M16_M40; M16_M41; M16_M42; M16_M43; M16_M44; M16_M45; M16_M46; M16_M47; M16_M48; M16_M49; M16_M50; M16_M51; M16_M52; M16_M53; M16_M54; M2; M2_M01; M2_M02; M2_M03; M2_M04; M2_M05; M2_M06; M2_M07; M2_M09; M2_M11; M2_M12; M2_M14; M2_M16; M2_M17; M2_M18; M2_M20; M2_M21; M2_M22; M2_M24; Meteor (1964); RADIO; Radiosonde
url https://doi.org/10.1594/PANGAEA.666396