RE: [Vo]:Nanowire frequency conversion
Your resonant structure will need to be an exact multiple of the size of the nucleus/gamma. -m From: David Roberson [mailto:dlrober...@aol.com] Sent: Friday, February 22, 2013 7:51 PM To: vortex-l@eskimo.com Subject: Re: [Vo]:Nanowire frequency conversion Check your dimensions. Gamma rays are on the order of the size of a nucleus. You appear off by many orders of magnitude. Dave -Original Message- From: Kevin O'Malley kevmol...@gmail.com To: vortex-l vortex-l@eskimo.com Sent: Fri, Feb 22, 2013 8:36 pm Subject: Re: [Vo]:Nanowire frequency conversion A BIG peice of nano-material is at or under 100 nanometers. This is less than 61 microns so a nano-structure that small can convert a gamma ray to heat because it is less than the far wavelenth of the radiation. ***Much of current semiconductor research is well under 100 nm. Why haven't they seen this conversion of gammas to heat? Why hasn't it been accepted in mainstream physics? A google search for conversion of gamma rays to heat generates only cold fusion related hits.
Re: [Vo]:Nanowire frequency conversion
This example is presented to you to support the point that nanowires can concert [convert?] gamma-rays directly into heat is properly configured. ***All kinds of things convert light to heat, such as your skin when you go out into the sunshine. But aren't gamma rays far more energetic than basic light? Is there evidence that gamma rays have converted to heat in some kind of metal matrix?
Re: [Vo]:Nanowire frequency conversion
Gamma Rays: Frequency Range: 1020 - 1024 Hz Wavelength Range: 10exp(-12) m 10 exp(-12) meters = 61.4421235 microns The nano structure must be less than the wavelength of the radiation, A BIG peice of nano-material is at or under 100 nanometers. This is less than 61 microns so a nano-structure that small can convert a gamma ray to heat because it is less than the far wavelenth of the radiation. On Fri, Feb 22, 2013 at 5:26 PM, Kevin O'Malley kevmol...@gmail.com wrote: This example is presented to you to support the point that nanowires can concert [convert?] gamma-rays directly into heat is properly configured. ***All kinds of things convert light to heat, such as your skin when you go out into the sunshine. But aren't gamma rays far more energetic than basic light? Is there evidence that gamma rays have converted to heat in some kind of metal matrix?
Re: [Vo]:Nanowire frequency conversion
A BIG peice of nano-material is at or under 100 nanometers. This is less than 61 microns so a nano-structure that small can convert a gamma ray to heat because it is less than the far wavelenth of the radiation. ***Much of current semiconductor research is well under 100 nm. Why haven't they seen this conversion of gammas to heat? Why hasn't it been accepted in mainstream physics? A google search for conversion of gamma rays to heat generates only cold fusion related hits.
Re: [Vo]:Nanowire frequency conversion
Check your dimensions. Gamma rays are on the order of the size of a nucleus. You appear off by many orders of magnitude. Dave -Original Message- From: Kevin O'Malley kevmol...@gmail.com To: vortex-l vortex-l@eskimo.com Sent: Fri, Feb 22, 2013 8:36 pm Subject: Re: [Vo]:Nanowire frequency conversion A BIG peice of nano-material is at or under 100 nanometers. This is less than 61 microns so a nano-structure that small can convert a gamma ray to heat because it is less than the far wavelenth of the radiation. ***Much of current semiconductor research is well under 100 nm. Why haven't they seen this conversion of gammas to heat? Why hasn't it been accepted in mainstream physics? A google search for conversion of gamma rays to heat generates only cold fusion related hits.
Re: [Vo]:Nanowire frequency conversion
It is accepted in mainstream physics. This technology has just begun development. Because the field is new, there the number of applications is few. He engineers have not taken full advantage of the basic scientific research. If we can pack large numbers of electrons into a confined space, each electron would assume it’s on quantum number because it is confined like a the orbitals of electrons in an atom. This pile of electrons form an artificial atom but it doesn’t have nucleus and have a very large range of quantum numbers. When a gamma ray strikes this pile of electrons, the kinetic energy of the photon transfers it energy to the electrons and the quantum number of one or more electrons increases. These excited electrons can reemit the energy at a lower wavelength or lower energy electron can enter into the pile because the gamma has made some energy gap room. A quantum dot holds a pile of electrons that do this function. Large quantum dots have been created that can store 600 electrons and handle a photon of about 1 MeV. See page 42 www.physics.umanitoba.ca/nano/publications/comments.pdf This lack of gammas in LENR leads me to suspect that there are cavities that hold large numbers of electrons to downshift the gamma photons. The gamma’s will also allow these cavities to pack more electrons in because the gammas increase the quantum numbers of the electrons already there to higher quantum levels allowing lower energy electrons to sneak into the pile. Glad to help: Axil On Fri, Feb 22, 2013 at 8:36 PM, Kevin O'Malley kevmol...@gmail.com wrote: A BIG peice of nano-material is at or under 100 nanometers. This is less than 61 microns so a nano-structure that small can convert a gamma ray to heat because it is less than the far wavelenth of the radiation. ***Much of current semiconductor research is well under 100 nm. Why haven't they seen this conversion of gammas to heat? Why hasn't it been accepted in mainstream physics? A google search for conversion of gamma rays to heat generates only cold fusion related hits.
Re: [Vo]:Nanowire frequency conversion
Sorry, my bad Axil On Fri, Feb 22, 2013 at 10:51 PM, David Roberson dlrober...@aol.com wrote: Check your dimensions. Gamma rays are on the order of the size of a nucleus. You appear off by many orders of magnitude. Dave -Original Message- From: Kevin O'Malley kevmol...@gmail.com To: vortex-l vortex-l@eskimo.com Sent: Fri, Feb 22, 2013 8:36 pm Subject: Re: [Vo]:Nanowire frequency conversion A BIG peice of nano-material is at or under 100 nanometers. This is less than 61 microns so a nano-structure that small can convert a gamma ray to heat because it is less than the far wavelenth of the radiation. ***Much of current semiconductor research is well under 100 nm. Why haven't they seen this conversion of gammas to heat? Why hasn't it been accepted in mainstream physics? A google search for conversion of gamma rays to heat generates only cold fusion related hits.
Re: [Vo]:Nanowire frequency conversion
Corrected… It is accepted in mainstream physics. This technology has just begun development. Because the field is new, the number of applications is few. The engineers have not taken full advantage of this type of basic scientific research. If we can pack large numbers of electrons into a confined space, each electron would assume its own quantum number because these electrons are confined like the electrons confined to the orbitals of an atom. This collection of electrons will form an artificial atom but the collection doesn’t have nucleus and can also have a very large range of quantum numbers. When a gamma ray strikes this ensemble of electrons, the kinetic energy of this photon transfers it energy to the electrons and the quantum number of one or more electrons will increase. These newly excited electrons can reemit the energy at a lower wavelength, or lower energy electron can enter into the pile because the gamma has made some energy gap room in the electron group. A quantum dot can hold such a pile of electrons that do the functions so described. Large quantum dots have been created that can store 600 electrons and more. They can handle a photon of about 1 MeV and more. See page 42 www.physics.umanitoba.ca/nano/publications/comments.pdf This lack of gammas detected in the LENR reaction leads me to suspect that there are nano-cavities that hold large numbers of electrons that can downshift the gamma photons produced nearby. These gamma’s will also allow these cavities to pack more electrons in because the gammas increase the quantum numbers of the electrons already there to higher quantum levels allowing lower energy electrons to sneak into the pile. Glad to help:Axil On Sat, Feb 23, 2013 at 12:00 AM, Axil Axil janap...@gmail.com wrote: It is accepted in mainstream physics. This technology has just begun development. Because the field is new, there the number of applications is few. He engineers have not taken full advantage of the basic scientific research. If we can pack large numbers of electrons into a confined space, each electron would assume it’s on quantum number because it is confined like a the orbitals of electrons in an atom. This pile of electrons form an artificial atom but it doesn’t have nucleus and have a very large range of quantum numbers. When a gamma ray strikes this pile of electrons, the kinetic energy of the photon transfers it energy to the electrons and the quantum number of one or more electrons increases. These excited electrons can reemit the energy at a lower wavelength or lower energy electron can enter into the pile because the gamma has made some energy gap room. A quantum dot holds a pile of electrons that do this function. Large quantum dots have been created that can store 600 electrons and handle a photon of about 1 MeV. See page 42 www.physics.umanitoba.ca/nano/publications/comments.pdf This lack of gammas in LENR leads me to suspect that there are cavities that hold large numbers of electrons to downshift the gamma photons. The gamma’s will also allow these cavities to pack more electrons in because the gammas increase the quantum numbers of the electrons already there to higher quantum levels allowing lower energy electrons to sneak into the pile. Glad to help: Axil On Fri, Feb 22, 2013 at 8:36 PM, Kevin O'Malley kevmol...@gmail.comwrote: A BIG peice of nano-material is at or under 100 nanometers. This is less than 61 microns so a nano-structure that small can convert a gamma ray to heat because it is less than the far wavelenth of the radiation. ***Much of current semiconductor research is well under 100 nm. Why haven't they seen this conversion of gammas to heat? Why hasn't it been accepted in mainstream physics? A google search for conversion of gamma rays to heat generates only cold fusion related hits.
Re: [Vo]:Nanowire frequency conversion
Axil, I am trying to understand how your model is able to contain the large number of electrons without dispersion. It seems that the force repelling the electrons would force them to expand outward through any walls. How do you envision them being contained? Dave -Original Message- From: Axil Axil janap...@gmail.com To: vortex-l vortex-l@eskimo.com Sent: Sat, Feb 23, 2013 12:45 am Subject: Re: [Vo]:Nanowire frequency conversion Corrected… It is accepted in mainstream physics. This technology has just begun development. Because the field is new, the number of applications is few. The engineers have not taken full advantage of this type of basic scientific research. If we can pack large numbers of electrons into a confined space, each electron would assume its own quantum number because these electrons are confined like the electrons confined to the orbitals of an atom. This collection of electrons will form an artificial atom but the collection doesn’t have nucleus and can also have a very large range of quantum numbers. When a gamma ray strikes this ensemble of electrons, the kinetic energy of this photon transfers it energy to the electrons and the quantum number of one or more electrons will increase. These newly excited electrons can reemit the energy at a lower wavelength, or lower energy electron can enter into the pile because the gamma has made some energy gap room in the electron group. A quantum dot can hold such a pile of electrons that do the functions so described. Large quantum dots have been created that can store 600 electrons and more. They can handle a photon of about 1 MeV and more. See page 42 www.physics.umanitoba.ca/nano/publications/comments.pdf This lack of gammas detected in the LENR reaction leads me to suspect that there are nano-cavities that hold large numbers of electrons that can downshift the gamma photons produced nearby. These gamma’s will also allow these cavities to pack more electrons in because the gammas increase the quantum numbers of the electrons already there to higher quantum levels allowing lower energy electrons to sneak into the pile. Glad to help:Axil On Sat, Feb 23, 2013 at 12:00 AM, Axil Axil janap...@gmail.com wrote: It is accepted in mainstream physics. This technology has just begun development. Because the field is new, there the number of applications is few. He engineers have not taken full advantage of the basic scientific research. If we can pack large numbers of electrons into a confined space, each electron would assume it’s on quantum number because it is confined like a the orbitals of electrons in an atom. This pile of electrons form an artificial atom but it doesn’t have nucleus and have a very large range of quantum numbers. When a gamma ray strikes this pile of electrons, the kinetic energy of the photon transfers it energy to the electrons and the quantum number of one or more electrons increases. These excited electrons can reemit the energy at a lower wavelength or lower energy electron can enter into the pile because the gamma has made some energy gap room. A quantum dot holds a pile of electrons that do this function. Large quantum dots have been created that can store 600 electrons and handle a photon of about 1 MeV. See page 42 www.physics.umanitoba.ca/nano/publications/comments.pdf This lack of gammas in LENR leads me to suspect that there are cavities that hold large numbers of electrons to downshift the gamma photons. The gamma’s will also allow these cavities to pack more electrons in because the gammas increase the quantum numbers of the electrons already there to higher quantum levels allowing lower energy electrons to sneak into the pile. Glad to help: Axil On Fri, Feb 22, 2013 at 8:36 PM, Kevin O'Malley kevmol...@gmail.com wrote: A BIG peice of nano-material is at or under 100 nanometers. This is less than 61 microns so a nano-structure that small can convert a gamma ray to heat because it is less than the far wavelenth of the radiation. ***Much of current semiconductor research is well under 100 nm. Why haven't they seen this conversion of gammas to heat? Why hasn't it been accepted in mainstream physics? A google search for conversion of gamma rays to heat generates only cold fusion related hits.
Re: [Vo]:Nanowire frequency conversion
See for an example of fermion confinement. http://en.wikipedia.org/wiki/Quantum_dot Plexcitons are different. They are bosons. It is an electron and a hole and where the hole is in the nickel wall of the cavity and the electron is in the empty space of the cavity. These electrons are held in place by dipole confinement. In physics, polaritons are quasiparticles resulting from strong coupling of electromagnetic waves (heat) with an electric or magnetic dipole-carrying excitation. Because they are bosons there is no limit to the number you can pack in a cavity because there is no Pauli Exclusion Principle to deal with. They can form Bose-Einstein condensates inside the cavities and many cavities can join the condensate. I don’t know how this condensate works in detail. What happens to the holes in the dipoles located in the Ni walls ? Are these holes part of the condinsate? arxiv.org/pdf/1210.7086 Bose-Einstein condensation of plexcitons - arXiv.org You should look into the Plexciton because the Nasa people think that it is causing LENR. When you get some knowledge on this subject we can teach each other through pleasant conversation. Cheers: Axil On Sat, Feb 23, 2013 at 1:02 AM, David Roberson dlrober...@aol.com wrote: Axil, I am trying to understand how your model is able to contain the large number of electrons without dispersion. It seems that the force repelling the electrons would force them to expand outward through any walls. How do you envision them being contained? Dave -Original Message- From: Axil Axil janap...@gmail.com To: vortex-l vortex-l@eskimo.com Sent: Sat, Feb 23, 2013 12:45 am Subject: Re: [Vo]:Nanowire frequency conversion Corrected… It is accepted in mainstream physics. This technology has just begun development. Because the field is new, the number of applications is few. The engineers have not taken full advantage of this type of basic scientific research. If we can pack large numbers of electrons into a confined space, each electron would assume its own quantum number because these electrons are confined like the electrons confined to the orbitals of an atom. This collection of electrons will form an artificial atom but the collection doesn’t have nucleus and can also have a very large range of quantum numbers. When a gamma ray strikes this ensemble of electrons, the kinetic energy of this photon transfers it energy to the electrons and the quantum number of one or more electrons will increase. These newly excited electrons can reemit the energy at a lower wavelength, or lower energy electron can enter into the pile because the gamma has made some energy gap room in the electron group. A quantum dot can hold such a pile of electrons that do the functions so described. Large quantum dots have been created that can store 600 electrons and more. They can handle a photon of about 1 MeV and more. See page 42 www.physics.umanitoba.ca/nano/publications/comments.pdf This lack of gammas detected in the LENR reaction leads me to suspect that there are nano-cavities that hold large numbers of electrons that can downshift the gamma photons produced nearby. These gamma’s will also allow these cavities to pack more electrons in because the gammas increase the quantum numbers of the electrons already there to higher quantum levels allowing lower energy electrons to sneak into the pile. Glad to help:Axil On Sat, Feb 23, 2013 at 12:00 AM, Axil Axil janap...@gmail.com wrote: It is accepted in mainstream physics. This technology has just begun development. Because the field is new, there the number of applications is few. He engineers have not taken full advantage of the basic scientific research. If we can pack large numbers of electrons into a confined space, each electron would assume it’s on quantum number because it is confined like a the orbitals of electrons in an atom. This pile of electrons form an artificial atom but it doesn’t have nucleus and have a very large range of quantum numbers. When a gamma ray strikes this pile of electrons, the kinetic energy of the photon transfers it energy to the electrons and the quantum number of one or more electrons increases. These excited electrons can reemit the energy at a lower wavelength or lower energy electron can enter into the pile because the gamma has made some energy gap room. A quantum dot holds a pile of electrons that do this function. Large quantum dots have been created that can store 600 electrons and handle a photon of about 1 MeV. See page 42 www.physics.umanitoba.ca/nano/publications/comments.pdf This lack of gammas in LENR leads me to suspect that there are cavities that hold large numbers of electrons to downshift the gamma photons. The gamma’s will also allow these cavities to pack more electrons in because the gammas increase the quantum numbers of the electrons already there to higher quantum levels allowing lower energy