Solar Eclipses and the Surface Properties of Water

Elmar C. Fuchs; Gerrit Oudakker; Martin Justinek; Nigel Dyer; Jakob Woisetschläger; Kevin  Godines; Matthias Mäder; Friedemann T. Freund

doi:10.1007/s11038-019-09529-0

Solar Eclipses and the Surface Properties of Water

Elmar C. Fuchs, Gerrit Oudakker, Martin Justinek, Nigel Dyer, Jakob Woisetschläger, Kevin Godines, Matthias Mäder, Friedemann T. Freund

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

During four solar eclipse events (two annular, one total and one partial) a correlation was observed between a change in water surface tension and the magnitude of the optical coverage. During one eclipse, evaporation experiments were carried out which showed a reduction in water evaporation at the same time as a rise in the surface tension. The changes did not occur on a day without a solar eclipse and are not correlated to changes in temperature, pressure, humidity of the environment. The effects are delayed by 20, 85, 30 and 37 min, respectively, compared to the maximum eclipse. Possible mechanisms responsible for this effect are presented, the most likely hypothesis being reduced water/muon interaction due to solar wind and cosmic radiation blocking during an eclipse. As an alternative hypotheses, we propose a novel neutrino/water interaction and overview of other, less likely mechanisms.

Originalsprache	englisch
Seiten (von - bis)	15-43
Fachzeitschrift	Earth, Moon, and Planets
Jahrgang	123
DOIs	https://doi.org/10.1007/s11038-019-09529-0
Publikationsstatus	Veröffentlicht - 30 Sept. 2019

Zugriff auf Dokument

10.1007/s11038-019-09529-0Lizenz: CC BY 4.0

Die Wasserbrücke
Woisetschläger, J. & Pecnik, R.
1/01/06 → …
Projekt: Arbeitsgebiet

Dieses zitieren

@article{2293ce05655345dd9d3683770cd8f08c,

title = "Solar Eclipses and the Surface Properties of Water",

abstract = "During four solar eclipse events (two annular, one total and one partial) a correlation was observed between a change in water surface tension and the magnitude of the optical coverage. During one eclipse, evaporation experiments were carried out which showed a reduction in water evaporation at the same time as a rise in the surface tension. The changes did not occur on a day without a solar eclipse and are not correlated to changes in temperature, pressure, humidity of the environment. The effects are delayed by 20, 85, 30 and 37 min, respectively, compared to the maximum eclipse. Possible mechanisms responsible for this effect are presented, the most likely hypothesis being reduced water/muon interaction due to solar wind and cosmic radiation blocking during an eclipse. As an alternative hypotheses, we propose a novel neutrino/water interaction and overview of other, less likely mechanisms.",

author = "Fuchs, {Elmar C.} and Gerrit Oudakker and Martin Justinek and Nigel Dyer and Jakob Woisetschl{\"a}ger and Kevin Godines and Matthias M{\"a}der and Freund, {Friedemann T.}",

year = "2019",

month = sep,

day = "30",

doi = "10.1007/s11038-019-09529-0",

language = "English",

volume = "123",

pages = "15--43",

journal = "Earth, Moon, and Planets",

issn = "0167-9295",

publisher = "Springer",

}

TY - JOUR

T1 - Solar Eclipses and the Surface Properties of Water

AU - Fuchs, Elmar C.

AU - Oudakker, Gerrit

AU - Justinek, Martin

AU - Dyer, Nigel

AU - Woisetschläger, Jakob

AU - Godines, Kevin

AU - Mäder, Matthias

AU - Freund, Friedemann T.

PY - 2019/9/30

Y1 - 2019/9/30

N2 - During four solar eclipse events (two annular, one total and one partial) a correlation was observed between a change in water surface tension and the magnitude of the optical coverage. During one eclipse, evaporation experiments were carried out which showed a reduction in water evaporation at the same time as a rise in the surface tension. The changes did not occur on a day without a solar eclipse and are not correlated to changes in temperature, pressure, humidity of the environment. The effects are delayed by 20, 85, 30 and 37 min, respectively, compared to the maximum eclipse. Possible mechanisms responsible for this effect are presented, the most likely hypothesis being reduced water/muon interaction due to solar wind and cosmic radiation blocking during an eclipse. As an alternative hypotheses, we propose a novel neutrino/water interaction and overview of other, less likely mechanisms.

AB - During four solar eclipse events (two annular, one total and one partial) a correlation was observed between a change in water surface tension and the magnitude of the optical coverage. During one eclipse, evaporation experiments were carried out which showed a reduction in water evaporation at the same time as a rise in the surface tension. The changes did not occur on a day without a solar eclipse and are not correlated to changes in temperature, pressure, humidity of the environment. The effects are delayed by 20, 85, 30 and 37 min, respectively, compared to the maximum eclipse. Possible mechanisms responsible for this effect are presented, the most likely hypothesis being reduced water/muon interaction due to solar wind and cosmic radiation blocking during an eclipse. As an alternative hypotheses, we propose a novel neutrino/water interaction and overview of other, less likely mechanisms.

U2 - 10.1007/s11038-019-09529-0

DO - 10.1007/s11038-019-09529-0

M3 - Article

SN - 0167-9295

VL - 123

SP - 15

EP - 43

JO - Earth, Moon, and Planets

JF - Earth, Moon, and Planets

ER -

Solar Eclipses and the Surface Properties of Water

Abstract

Zugriff auf Dokument

Projekte

Die Wasserbrücke

Dieses zitieren