Yes - cut and paste some times screws up exponents.
BTW, another interesting paper at that sight is:
"Zero point energy and zero point oscillations:
how they are detected experimentally"
[[ Contents
1. Introduction 796
2. Development of the zero-point energy concept 797
3. Isotope effect in electronic±vibrational spectra of molecules 798
4. Diffraction of X-rays and neutrons from crystals 799
5. Manifestation of zero point oscillations in the Moessbauer effect
probability 802
6. Observation of quantum effects in macroscopic oscillators 802
7. Optical cooling of nanomechanical oscillators 804
8. Conclusion 806
Abstract. The zero point energy of a system in a potential well is
reviewed as a concept, with some history of the development
behind it, and a discussion is given of how it can be detected
experimentally from the electronic-vibrational spectrum of
molecules with different isotopes (isotope effect). Also dis-
cussed is how the zero point oscillations of crystal lattice atoms
show up in the diffraction of X-rays and neutrons from crystals
and in the temperature dependence of the Mossbauer effect
probability. Other topics include measuring zero point oscilla-
tions of water molecules in a nanotube to determine the form of
the potential energy of the system; the role of zero point oscilla-
tions in the dynamics of electrons in semiconductors, and ex-
periments on the optical cooling and quantum behavior of
mechanical oscillators.]]
http://iopscience.iop.org/1063-7869/55/8/A04
Full pdf article is available with free registration.
-- Lou Pagnucco
> At 10:19 AM 11/7/2012, [email protected] wrote:
>>"Anomalous Neutron Burst Emissions in Deuterium-Loaded Metals: Nuclear
>>Reaction at Normal Temperature"
>
>
>>Conventional nuclear fusion occurs in plasma at temperatures greater than
>>107°C or when energy higher than 10 keV is applied.
>
> That's 10^7°C
>
>
>
