All I can say is that the graviton has been identified and is able to be suppressed, as I said the researcher is in patent mode at present and won't release any more information until he has the patent.

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>From Weisstein (2006):
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>[Graviton: A theoretical particle having no mass and no charge that mediates (carries) the gravitational force. The graviton is a boson. The existence of a graviton has not yet been confirmed experimentally, although string theory predicts the existence of gravitons as closed strings with the minimum possible energy. It is also theorized that gravitons interact with leptons and quarks.]
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>From Fermilab Today dated Thursday, May 12, 2005:
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>[DZero physicists have searched for decays of excited gravitons into pairs of electrons, muons, or photons. So far, no evidence for graviton production has been found ...]
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>Title: Neutrino and graviton rest mass estimations by a phenomenological approach
>Authors: Valev, Dimitar
>Publication: eprint arXiv:hep-ph/0507255
>Publication Date: 07/2005
>Origin: ARXIV
>Keywords: High Energy Physics - Phenomenology
>
>The above article found that the mass of a graviton is likely similar to the mass of an electron neutrino.
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>From Hyperphysics C. R. Nave dated 2005
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>[The graviton is the exchange particle for the gravity force. Although it has not been directly observed, a number of its properties can be implied from the nature of the force. Since gravity is an inverse square force of apparently infinite range, it can be implied that the rest mass of the graviton is zero.]
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>So it seems that the available literature indicates that the graviotn has not been isolated as yet (at least up to 2005). It does seem to agree that there are some similarities between the electron neutrino and the graviton at least in terms of their masses (which for the graviton is estimated to be 0 at rest).