Text Size

Stardrive

Tag » Louis de Broglie

Einstein was writing all this before modern quantum theory. Today we know that the Aether is the quantum vacuum filled with virtual particles that are off mass-shell i.e. E^2 =/= (pc)^2 + (mc^2)^2 Also contact forces are caused by off-mass shell virtual photons in the non-radiative near field including longitudinal polarizations absent in real photons on the mass shell (light cone). Action at a distance is in the Wheeler-Feynman classical sense confined to the photon mass shell (aka light cone) but including advanced back from the future destiny waves generalized to "confirmation" quantum de Broglie waves by John Cramer in his TI. This is in addition to the more familiar retarded history waves. de Broglie waves are faster than light in phase quantum information when m =/= 0 though slower than light in energy transport. nonlocal EPR correlations are explained by retrocausal advanced confirmation destiny waves in the Feynman zig zag (term coined by O Costa de Beauregard). On Jun 22, 2014, at 8:09 PM, Paul Zielinski wrote: And he said almost the same things in 1924: http://www.oe.eclipse.co.uk/nom/aether.htm On 6/22/2014 7:46 PM, art wagner wrote: The Einstein Ether (1920): http://www.bonus.manualsforall.com/Educational/Albert-Einstein/Albert Einstein - Ether And The Theory Of Relativity.PDF

Jack Sarfatti
Sunday via Twitter
  • quantum heretic | research and creative discovery | Clemson University http://t.co/6695ZinRX9
    quantum heretic
    clemson.edu
    In the warm winter sunshine, a distinguished man stands on the curb outside a local bank, wearing a casual jacket, his dark, curly hair stranded with silver
  • Jack Sarfatti agreed
    his effective Hamiltonian for 4-port passive devices (beam splitters, interferometers) and for active devices like parametric down converters for making EPR pairs is useful - note formal analogy with BCS superconductivity effective Hamiltonian a
    1a2 + a1*a2* except in light bosons, in BCS fermions.

    ps the new Valentini paper claiming that Bohm's Q dynamics violates observation - but de Broglie's dynamics still OK is important.

    of course instability of Born rule collapsing no-signaling glass ceiling is what I am after - actually so is Valentini

    Life is that in my opinion.

    http://www.clemson.edu/glimpse/?p=1177

    http://arxiv.org/abs/1306.1576

    On Jun 10, 2013, at 10:12 AM, nick herbert <quanta@cruzio.com> wrote:

    Thanks, Jack.
    A review of quantum optics
    of astonishlng depth and breadth.
    Who is Ulf Leonhardt?
    Decendent of the Vikings
    who ran the place in the old days?

    On Jun 9, 2013, at 2:08 PM, JACK SARFATTI wrote:

    <QuantumOpticsReview0305007v2.pdf>
    www.clemson.edu
    In the warm winter sunshine, a distinguished man stands on the curb outside a local bank, wearing a casual jacket, his dark, curly hair stranded with silver
  • Jack Sarfatti It seems that special relativity won't save "Bohm dynamics" in Valentini's sense either.

    Valentini et-al write:

    "This is in sharp contrast with de Broglie's dynamics, where efficient relaxation to equilibrium implies that one should expect to see equilibrium at later times (except, possibly, for very long-wavelength modes in the early universe (Valentini 2007, 2008b, 2010; Colin and Valentini 2013)). It is then reasonable to conclude that, while de Broglie's dynamics is a viable physical
    theory, Bohm's dynamics is not. ...

    It might be suggested that Bohm's dynamics is only an approximation, and that corrections from a deeper theory will (in reasonable circumstances) drive the phase-space distribution to equilibrium. Such a suggestion was in fact made by Bohm (1952a, p. 179). While this may turn out to be the case, the fact remains that Bohm's dynamics as it stands is unstable and therefore (we
    claim) untenable.

    In our view Bohm's 1952 Newtonian reformulation of de Broglie's 1927 pilot wave dynamics was a mistake, and we ought to regard de Broglie's original
    formulation as the correct one. Such a preference is no longer merely a matter
    of taste: we have presented concrete physical reasons for preferring de Broglie's dynamics over Bohm's."

    "The above results provide strong evidence that there is no tendency to relax to
    quantum equilibrium in Bohm's dynamics, and that the quantum equilibrium
    state is in fact unstable. It is then reasonable to conclude that if the universe
    started in a nonequilibrium state { and if the universe were governed by Bohm's
    dynamics { then we would not see quantum equilibrium today. The Born rule
    for particle positions would fail, momenta would take non-quantum-mechanical values, and there would be no bound states such as atoms or nuclei. ... the same instability appears if one applies Bohm's dynamics to high-energy field theory. ... Similar results would be obtained for the electromagnetic field, for example, resulting in unboundedly large electric and magnetic field strengths even in the vacuum. This is grossly at variance with observation"

    On Jun 11, 2013, at 12:48 AM, Basil Hiley wrote:

    "Colin and Valentini are not addressing Bohmian non-commutative dynamics that I wrote about in arXiv 1303.6057
    They are considering what Bohm and I called the stochastic interpretation of QM. [see our paper "Non-locality and Locality in the Stochastic Interpretation of Quantum Mechanics, Phys. Reports 172, 93-122, (1989).] That was based on the earlier work of Bohm "Proof that Probability Density Approaches |Ψ|2 in Causal Interpretation of the Quantum Theory", Phys. Rev., 89, no. 2, 458-406, (1953) and the work in Bohm and Vigier, Model of the Causal Interpretation of Quantum Theory in Terms of a Fluid with Irregular Fluctuations, Phys. Rev. 96, no. 1, 208-216, (1954). These approaches add a new stochastic 'sub-quantum' field to 1952 model in order to explain the quantum probability P=|Ψ|^2 as an equilibrium condition in this stochastic background. It should be noted that de Broglie supported these approaches and conclusions in his book "Non-linear Wave Mechanics: a Causal Interpretation", Elsevier, Amsterdam, ch XIII, (1960). All these authors including de Broglie, concluded that under the right assumptions the distribution approaches quantum distribution. Bohm and I gave a brief summary of the essentials that lead to that conclusion. I have not had time to study why Colin and Valentini arrive at a contrary conclusion.

    One of the conclusions of our Phys. Reports paper was that because the stochastic model adds the possibility of new features arising beyond those given by the standard QM approach. For example, in sufficiently fast processes, results different from those given by the equilibrium Ψ could result and that further investigation could potentially be useful in giving rise to new physics. We failed to find any new physics that agreed with experiment and therefore abandoned the stochastic approach.

    I find it very surprising that Colin and Valentini set up de Broglie v Bohm in view of what de Broglie himself wrote in his book "Non-linear Wave Mechanics". Just read the book!

    Basil."

    On 10 Jun 2013, at 17:32, JACK SARFATTI wrote:

    11 hours ago via Twitter
    quantum heretic | research and creative discovery | Clemson University http://t.co/6695ZinRX9
    quantum heretic
    clemson.edu
    In the warm winter sunshine, a distinguished man stands on the curb outside a local bank, wearing a casual jacket, his dark, curly hair stranded with silver
    Like · · @JackSarfatti on Twitter · Share

    http://arxiv.org/abs/1306.1576
    [1306.1576] Instability of quantum equilibrium in Bohm's dynamics
    arxiv.org
    www.clemson.edu
    In the warm winter sunshine, a distinguished man stands on the curb outside a local bank, wearing a casual jacket, his dark, curly hair stranded with silver