Two years of detecting dark matter objects: The solar system members

Drobyshevski, E. M.; Drobyshevski, M. E.; Izmodenova, T. Yu.; Telnov, D. S.

doi:10.1080/1055679031000079629

Cited by 6 publications

(7 citation statements)

References 7 publications

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“…Some interesting hints for a seasonal variation were also claimed [1,2]. Taken at face value these results represent intriguing evidence for a flux of slow moving (v ∼ L/∆t ∼ 10 − 15 km/s) long lived massive particles, with fairly large penetrating ability and which interact sufficiently to produce an observable burst of photons.…”

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confidence: 58%

“…However, the total number of events was statistically small, roughly 70 events (in the 20 µs < |∆t| < 40 µs bins) during a 700 hour exposure [1], and is as yet unconfirmed by any other experiment. Some interesting hints for a seasonal variation were also claimed [1,2]. Taken at face value these results represent intriguing evidence for a flux of slow moving (v ∼ L/∆t ∼ 10 − 15 km/s) long lived massive particles, with fairly large penetrating ability and which interact sufficiently to produce an observable burst of photons.…”

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confidence: 58%

“…Drobyshevski et al [1,2] have been searching for slow-moving (v ∼ 30 km/s) dark matter objects and have obtained some interesting positive results. While they have interpreted their results in terms of Planckian mass objects with electric charge ∼ 10e (daemon hypothesis), we will suggest an alternative interpretation in this note.…”

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confidence: 99%

“…See Ref. [1,2] for more details. The passage of a charged particle through each of these plates or the tin walls can potentially be detected by the photomultiplier tubes.…”

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confidence: 99%

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Have mirror micrometeorites been detected?

Foot

Mitra

2003

Phys. Rev. D

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Slow-moving (v ∼ 15 km/s) 'dark matter particles' have allegedly been discovered in a recent experiment. We explore the possibility that these slow moving dark matter particles are small mirror matter dust particles originating from our solar system. Ways of further testing our hypothesis, including the possibility of observing these dust particles in cryogenic detectors such as NAUTILUS, are also discussed.

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confidence: 58%

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confidence: 58%

mentioning

confidence: 99%

“…See Ref. [1,2] for more details. The passage of a charged particle through each of these plates or the tin walls can potentially be detected by the photomultiplier tubes.…”

mentioning

confidence: 99%

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Have mirror micrometeorites been detected?

Foot

Mitra

2003

Phys. Rev. D

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“…We readily see that this interval encompasses the possible values of V fall from NEACHOs with a large margin. (8)(9)(10)(11)(12)(13)(14)(15)(16)(17)(18)(19)(20) March; N ( t) for the interval -100 µs < t < +100 µs, 3,6,7,7,7,3,10,5,4,10) and March 2005 (three modules 1, 2 and 24; 5-25 March; N ( t) for the interval-100 µs < t < 100 µs, 14,17,15,18,20,20,25,15,15,18). The 30 µs maximum in the total distribution exceeds the mean level by 33 events and has a significance of 3.63σ (confidence level, greater than 99.97%) (see also text).…”

Section: Daemons and Detection Of Their Near-earth Population: Uncontmentioning

confidence: 99%

Observation of the March maximum in the daemon flux from near-Earth orbits in the year 2005: new efforts and new effects

Drobyshevski

2006

Astronomical & Astrophysical Transactions

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The experiments of 2005 aimed at detection of low-velocity (~10-15 km s -1 ) daemons falling on to the Earth's surface from Near-Earth, Almost Circular Heliocentric Orbits (NEACHOs) have corroborated once more the existence of the March maximum in their flux by raising its confidence level to 99.99%. In addition, these experiments permitted us to identify several FEU-167-1-type PM tubes, with a few times thicker inner Al coating, which appear to be capable to detect, without any scintillator, the crossing of negatively charged daemons. As a result, detection efficiency increases tens of times, thus raising the measured level of the March daemon flux to f ⊕ ×10 -7 cm -2 s -1 .

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The daemon kernel of the sun

Drobyshevski¹

2004

Astronomical & Astrophysical Transactions

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The daemon-stimulated proton decay is fully capable of providing an appreciable part of the Sun luminosity as well as nonelectron flavor component in the solar neutrino flux. This follows (1) from our experiments on detection of negative daemons in Earth-crossing orbits, which give ∆τ ex ∼ 1 µs for the decay time of a daemon-containing proton (Drobyshevski et al, 2001), and (2) from an estimate of the total number of daemons which could be captured by the Sun from the Galactic disk (up to ∼2.4·10 30 ) (Drobyshevski, 1996). Because of their huge mass (∼3·10 -5 g), the captured daemons settle down to the Sun's center to form there a kernel a few cm in size. The Earth has also such a kernel (Drobyshevski, 2001(Drobyshevski, , 2002. The outside protons diffuse gradually into the kernel to decay there with a release of energy. Physically sound estimates of the parameters of an isothermal kernel can be obtained under the assumption that it consists mainly of negative daemons. Proton decay maintains a high temperature of the daemon gas (up to ∼10 11 −10 12 K), which makes it physically collisionless and prevents kernel collapse into a black hole.

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Two years of detecting dark matter objects: The solar system members

Cited by 6 publications

References 7 publications

Have mirror micrometeorites been detected?

Have mirror micrometeorites been detected?

Observation of the March maximum in the daemon flux from near-Earth orbits in the year 2005: new efforts and new effects

The daemon kernel of the sun

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