Could Macroscopic Dark Matter (Macros) Give Rise to Mini-Lightning Flashes out of a Blue Sky without Clouds?

A recent study pointed out that macroscopic dark matter (macros) traversing through the Earth’s atmosphere can give rise to hot and ionized channels similar to those associated with lightning leaders. The authors of the study investigated the possibility that when such channels created by macros pass through a thundercloud, lightning leaders may be locked in by these ionized channels, creating lightning discharges with perfectly straight channels. They suggested the possibility of detecting such channels as a means of detecting the passage of macros through the atmosphere. In this paper, we show that such macros crossing the atmosphere under fair weather conditions could also give rise to mini-lightning flashes with current amplitudes in the order of a few hundred Amperes. These mini-lightning flashes would generate a thunder signature similar to or stronger than those of long laboratory sparks and they could also be detected by optical means. As in the case of thunderstorm-assisted macro lightning, these mini-lightning flashes are also associated with straight channels. Moreover, since the frequency of mini-lightning flashes is about thirty times greater than the macro-generated lightning flashes assisted by thunderstorms, they could be used as a means to look for the paths of macroscopic dark matter crossing the atmosphere.

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XXXIX.—Did the Tail of Halley's Comet affect the Earth's Atmosphere?

Proceedings of the Royal Society of Edinburgh ◽

10.1017/s0370164600030984 ◽

1910 ◽

Vol 30 ◽

pp. 529-550

Author(s):

John Aitken

Keyword(s):

The Sun ◽

Earth’S Atmosphere ◽

Magnetic Condition ◽

The Earth ◽

Electrical Condition ◽

Halley's Comet ◽

Earth's Atmosphere ◽

Pass Through

The return of Halley's Comet in May of this year gave rise to much speculation as to its possible effects on the earth. As it was expected that the earth would pass through the tail of the comet when the comet passed between us and the sun, many observations were arranged for in order to see if the tail, whatever it was composed of, had any effect on the earth or on its atmosphere. If the tail was composed of matter in any form, gaseous, or fine solid or liquid particles, then it seemed possible to get some evidence of its presence in the atmosphere; or if the tail was composed of electrons, then these would disturb the electrical condition of the atmosphere, and also the magnetic condition of the earth.

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Electrodynamical Coupling of Earth's Atmosphere and Ionosphere: An Overview

International Journal of Geophysics ◽

10.1155/2011/971302 ◽

2011 ◽

Vol 2011 ◽

pp. 1-13 ◽

Cited By ~ 10

Author(s):

A. K. Singh ◽

Devendraa Siingh ◽

R. P. Singh ◽

Sandhya Mishra

Keyword(s):

Electromagnetic Field ◽

Electric Circuit ◽

Lower Atmosphere ◽

Global Electric Circuit ◽

Radioactive Elements ◽

Speed Of Light ◽

Earth’S Atmosphere ◽

Lightning Discharges ◽

Earth's Atmosphere ◽

Present Understanding

Electrical processes occurring in the atmosphere couple the atmosphere and ionosphere, because both DC and AC effects operate at the speed of light. The electrostatic and electromagnetic field changes in global electric circuit arise from thunderstorm, lightning discharges, and optical emissions in the mesosphere. The precipitation of magnetospheric electrons affects higher latitudes. The radioactive elements emitted during the earthquakes affect electron density and conductivity in the lower atmosphere. In the present paper, we have briefly reviewed our present understanding of how these events play a key role in energy transfer from the lower atmosphere to the ionosphere, which ultimately results in the Earth's atmosphere-ionosphere coupling.

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Survey on Electrical Activity in Earth’s Atmosphere

Advanced Electromagnetics ◽

10.7716/aem.v7i4.737 ◽

2018 ◽

Vol 7 (4) ◽

pp. 34-45

Author(s):

M. K. Paras ◽

P. Rani

Keyword(s):

Lightning Discharge ◽

Lower Ionosphere ◽

Thunderstorm Activity ◽

Electrical Discharges ◽

Entire Family ◽

Earth’S Atmosphere ◽

Lightning Discharges ◽

Earth's Atmosphere ◽

Blue Jets ◽

Cg Lightning

Lightning discharge is a spectacular, luminous and one of the most dangerous short lived phenomenon which occurs in the Earth’s atmosphere ranging from troposphere to the lower ionosphere. Lightning in troposphere is mainly classified as cloud-to-ground (CG) lightning, intra-cloud lightning and inter-cloud lightning discharges. It is assumed that these discharges are caused by the electrically charged thunderclouds. CG lightning has been studied more and is further categorized as positive CG and negative CG lightning. Positive CG lightning is more powerful and accounts only (5-10) percent of the total global lightning and may carry a peak current of >300 kA. An entire family of other electrical discharges also has been reported by the scientific community. They are called “Transient’s Luminous Events (TLE’s)”. TLEs occur from top of the thunderclouds up to the lower ionospheric altitudes. Their first visual evidence was documented in 1989. TLE’s are included as blue starters, blue jets, gigantic jets, red sprites, halos, and elves. They are named according to their optical properties, terminal altitudes and different shapes. It has been observed that TLE’s are associated with underlying thunderstorm activity and strong CG lightning. The exact physical mechanism of lightning and TLE’s and their association with the underlying thunderstorms is still unknown and the research is going on. In this paper, we will study the possible mechanisms of these electrical discharges, their inter-connection and impacts on the atmosphere. This papers is aimed at the readers generally are unfamiliar with the lightning characteristics. We hope that this article will increase the interest among the researchers.

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ARE BLACK HOLES ELEMENTARY PARTICLES?

International Journal of Modern Physics A ◽

10.1142/s0217751x09047223 ◽

2009 ◽

Vol 24 (18n19) ◽

pp. 3577-3583 ◽

Cited By ~ 5

Author(s):

YUAN K. HA

Keyword(s):

Black Holes ◽

Dark Matter ◽

Cosmic Rays ◽

High Energy ◽

Elementary Particles ◽

Ultra High Energy ◽

Earth’S Atmosphere ◽

High Energy Cosmic Rays ◽

The Galaxy ◽

Earth's Atmosphere

Quantum black holes are the smallest and heaviest conceivable elementary particles. They have a microscopic size but a macroscopic mass. Several fundamental types have been constructed with some remarkable properties. Quantum black holes in the neighborhood of the Galaxy could resolve the paradox of ultra-high energy cosmic rays detected in Earth's atmosphere. They may also play a role as dark matter in cosmology.

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