Here I want to talk about the possibility of a Starship in the future traveling faster than light. I have believed that the EPR is about a small constellation of the Low Energy Higgs, which are particles predicted by physicists like Einstein and others hoped to use to solve the Uncertainty problem in quantum mechanics and recently found in the laboratory. The unique configuration for each heavy quantum may explain how with the EPR only the two entangled quanta show the influence.
I think these Low Energy Higgs' LEH quanta may be highly important to mass and inertia more than the high energy Higgs' with calculations that Wilczec won the Nobel Prize for (about calculating the mass of the fractional charges in QCD) Even so the LEH may be external around the heavy quanta and they don't disappear at the lowest energy state.
So they're inside what I call the radius of action ROA, where the heavy quanta they give mass to have the LEH on the outside.
There would be problems about the friction with the LEH about gravity and the Earth would fall in to the sun in its orbit or the heavy quanta might stop spinning.
So externally there are the waves, the waves are external and send the EPR information between the entangled quanta.
Dark matter and dark energy have been tough to find and while just moving around the room shows you the evidence that they're there perhaps the difficulty of finding them using sensors made of heavy quanta maybe really difficult because of the difficulty of finding dark matter and dark energy in general.
(The waves are external but not the particles because the particles would have problems with friction and the waves would also be there because there's evidence for dark matter and dark energy by acceleration even while the planets move through the waves without resistance. Quantum mechanics predicts that there's a huge amount of energy for the low energy field called the 0 point energy. We don't directly see the energy of these waves because they only exert the force when they reach the snapback of the Radius Of Action (ROA). The low energy waves would act as proxy for the mass and inertia of common quanta. This would be why relativity seems to so well account for the motions of masses and energy only and not anything between them because the phase change would make the low energy waves so much reflect the changes in the masses but not any apparent changes in the waves like dark energy or dark matter.
Like dark matter and dark energy we find little direct evidence for these waves even while the general evidence is strong. In my hypothesis this is because of a phase change so that while the waves are faster than light they're also much lighter than light and the quanta only resonate with the quanta they're entangled with.)
Some have proposed that we try to engineer the low energy field to get around Special Relativity, but I would think the field would be much tougher to engineer because it's tough to get traction on it with a quanta compared to just changing the quanta themselves which are much higher energy and so we might be able to have more chance of modulating the interaction of the quanta with the field.
In my scenario the low energy waves themselves are much faster than light because they're lighter than light by Maxwell's method he used to predict the speed of light exactly based on level of the resilience of the field.
And so the external quanta inside the ROA are resonating by way of those waves with other quanta for the EPR. In this event they're resonating like two fans, like crystals to explain the EPR because of the "code" of the LEH and the scintillation may cause the acceleration of gravity and other cohesive forces. They have the special code for that particular quanta so the change in one always reliably measures the change in the other once measurement is made or vice versa for the other entangled quanta and as Einstein believed about the LEH.
You may say that experiments show there's no way to get underneath the energy of the Uncertainty Principal without collapsing the wave function as Einstein believed. However recent "low energy quantum experiments" show that Einstein was at least partially right.
A low energy quantum "mouse" is sent by the quantum "cat" and by how the mouse moves we might say if the quantum cat is "alive and doing well" or just on the cushion passed out.. this may uphold Einstein about the nonrelativity of the Uncertainty Principal. Unlike a simple idea like Einstein had this may only be partially a probability since the waves and particles inside the ROA are blended together. Even so as I say on this page it may have value..
Here I want to talk about the possibility of fast travel. It's been thought that basically when you're moving in uniform motion the low energy particles exert no force on you and you find they're equal in every direction. But once you start to accelerate, contrary to relativity, you're actually then feeling the force of the particles more dense ahead of you.
So the question some of us have asked is why the field in uniform motion is unlike with acceleration. My belief is the information about changes in the momentum of the field is only stored and not absent in uniform motion. To say that inertia causes gravity seems to me like saying uniform motion causes acceleration as Mach and Einstein believed and since this is not true I think relativity is incomplete.
The interaction between the plus and minus charges that Maxwell used to predict the speed of light exactly would be like the weight and counterweight of an elevator to give the snapback for the speed of light.
I think of this like an elevator with the balancing of the weights, and I'm not one of them! Beneath the quantum level the inertia is maintaining that motion forward of the mass with the motion without acceleration.
This relates to the ancient idea that inertia might be caused by back reaction of the field. Aristotle believe for example that inertia is caused by a back reaction of the air.
My belief is that the inertia indeed is caused by the common quanta, baryons mesons and leptons being beneath the quantum level so even though there is potential for friction with the low energy particles or waves externally in uniform motion there's not enough energy to make it out of the quantum well without acceleration. As needed by energy conservation the information about changes in the momentum of the field is stored not absent.
Energy conservation like a computer may allow both to make the changes and to store them not just storage as relativity seems to tell us.
When mass starts to accelerate from uniform motion this essentially changes the information about the wavelength of the light interacting with the starship observer and other observers.
Work is done on the field and so the light matches up with its speed, which it never could do by relativity because first the high speed observers field changes the field around it which then changes the light and the signal has to be faster than light to do this.
This is only to say that an observer of sound on a train and the Doppler shift when they change their speed are going to change their interaction with the air around the train causing something like a sort of Lorentz contraction for the train to some degree.
Certainly we can say that there is no interaction between the sound and the train before the sound reaches the train.
But we can't say there's no Lorentz contraction and this will be evidence for changes in the field which then gives changes to the light in Special Relativity "or the sound" of the train.
We can't say there's no field or no air there because changes like the Lorentz contraction that are closely associated with changes in the wavelength of the light before it reaches the observer would only be possible by a faster than light connection. I hold that any change in anything like the information about the wavelength of the light before it reaches to starship is evidence the connection is faster than light.
I also believe that just because sound is never faster than sound and light is never faster than light, this doesn't mean that sooner or later we may not be able to move the masses faster than light just as we can break the sound barrier. This was also once thought impossible.
Sound couldn't travel at the speed of sound unless there was air there that had some component of the field moving faster than the speed of sound. This is because every body in the universe including every wave or particle has two components one speeding it up and one tending to slow it down. This is like centrifugal and centrifugal force. But if there's a component that tends to speed up any wave it has to be faster than that wave or the wave couldn't propagate at the speed it does. This is related to what Tesla thought and I realized independently later on that the low energy field has a non zero permeability to light, this being related to superluminal effects around the light as it moves.
This is why the evidence about the Lorentz contraction may be important to the extension of relativity. The atmosphere of the air is there and it's individual components at least part of the time are moving faster than the wave.
True the speed of light matches up but if light is wave it would seem something is waving just like all the other waves we find. The reason we don't directly find the waves is because the information about them is only stored and not absent because in relativity it's below the quantum level in uniform motion.
People like Bernard Haish who's an astrophysicist at Lockheed Martin in Palo Alto, CA says that 20th century physics seems as silly as Ptolmaic cosmology and is wrong because while all the predictions are viable, it still isn't a true idea.
And so he says that as you're moving when you go from uniform to accelerated motion, you're actually feeling the force of more particles moving against you as you move forward through the field. This would explain the Lorentz contraction and why a larger mass moves more slowly with the same force applied than a small mass as Haisch says merely because the larger mass has more quanta in contact with the external field so it resists more and moves more slowly. The Lorentz contraction is the foundation of a lot, as in ALL, of modern physics.
Haisch thinks it's possible someday we might be able to render the interaction of those quanta totally inert.
And so we could have zero mass, or inertia reducing all the relativistic limits on high speed travel. We could go faster than light without any kind of resistance to the field. It's basically stopping the interaction with the low energy particles and waves.
Here I want to talk about one of my theoretical methods we might use to solve the relativity limits. Basically, this is my idea about the Higgs laser. With a tube of atoms we send the waves down the tube. They're on the outside of the atoms and inside the radius of action ROA of the quanta and are adhering to that atom. Certainly there are the waves.
The idea is the flow resonates with the LEH by sending the resonance of the energy down that tube to unify and columnate the LEH in the column. And now you've got a sort of monochromatic Higgs' ray. This is the Higgs laser of my own invention Einstein might have dreamed of.
The ray is used underneath the quantum level as Einstein believed that there might be a low energy particle to get around the Uncertainty Principle.
And we modulate those "constellations" of the Low Energy Higgs around the ROA so that if attraction by gravity is by way of the low energy photons that are resonating with this quanta, by taking those Higgs' and changing the configuration if we could, then we could basically render it so it doesn't interact with either the inertial field, or the gravitational field.
Now we've got a massless particle that has mass internally, not externally.
Consider the inner mass of the electron which by the evidence about deep inelastic scattering experiments and renornalization is much larger inside and yet its external mass is small, that is, it's inert about the influence of the low energy photons on the outside.
You can imagine that we couldn't go in a high speed field for high speed travel without changing the electrical, mechanical or chemical properties of the atoms that we evolved with our physiology.
We couldn't do that in the starship, because inertia doesn't shield metal plates like by centrifugal force, and so just wraps around the heavy quanta and goes inside the starship, this would be changing our physiology too much by ionization.
If we could render the atoms and molecules of our bodies massless, this would change our physiology too much also.
So for this an even a cooler idea perhaps, is is to use the same quanta, but we're moving them close together.
The heavy quanta we find and make into a shield around the front of the ship and we induce a Higgs current at right angles with the arch of the shield with the starship and we induce that field of the Higgs so we're inducing it either by the laser or some electromagnetic method of inducing the current (another possibility I consider is if the Higgs current might be induced by entanglement of the quanta of the shield especially with reduced distance). It seems possible we might change the quanta of the machine themselves to resonate best with Higgs' currents like the LEH. So the LEH are flowing here from quanta to quanta around the shield.
There have been some who attempted the idea of a superconducting shield around the outside of a starship to have a bubble inside the ship and travel at higher speeds. I believe, due to the nature of events like entanglement this won't work, because even with the huge density of a pulsar if there were even a small bit of shielding, the pulsar would explode. A Higgs' current may be of a special type not found in more common physics and mostly may only resonate at a special energy level (and "code") that's not about superconductivity. After all gravity goes right through the BEC Bose Einstein Condensate a type of "dense superfluid".
If we change the resonance of the LEH of each quantum and atom of the shield and then send a Higgs' current of the right type across the interstices of the atoms to form a more inert area the low energy photons can't go through, this may allow us to send the starship faster without relativistic mass gain or time dilation. This is not the same as a superconducting shield because it uses the Higgs' modulated quanta and the special Higgs' current by way of the Higgs' laser or other way to make the LEH current.
If it's possible, I'd say that if we could actually reduce all the interactions with the external waves at the right frequencies, we change those frequencies and we've got a shield for the whole Starship an inside that bubble and you can actually travel faster than light or at high speed.
Haisch also believes that we might be able to use the impulsive properties of the low energy photonic field, the virtual particles, to accelerate masses to any speed we want without much energy cost. While I think these methods may have possible value e.g for reducing or increasing gravity, for changing chemistry and new states of matter or for higher speed travel at lower cost by way of rendering the field inactive, it seems implausible to generate more force out of the snapback of the spin of the quanta since there is only a small amount of energy there, not unlimited.
I think we might reduce the cost of interaction of the field but this wouldn't be unlimited power. (Even so the idea of solitons might allow us at any rate extract more of the energy of the mass of quanta, perhaps more efficiently than fission or fusion. Nuclear reactions have efficiency of only about 5%.)
At any rate if the low energy Higgs' are moving faster than light themselves, the relativistic limit might be gotten around by starting a Higgs' current around each heavy quanta and linking it from atom to atom.. this means that while the Higgs' laser maybe itself be short range in the sense that it only connects up the quanta in the tube, in essence as Einstein was concerned about the speed of the collapse of the wave function this may be true that it's continually going underneath the Uncertainty Principle and thus the Higgs' current itself would be faster than the speed of light limit.
This may be how and why Chaou's tunneling experiments showed that tunneling was faster than light by about 1.3 times. This might be expected if the fractional charges are about a third lighter on average than one or minus one and so are that much faster than light.
As I say elsewhere while Chaou believed this is not violating relativity because it trims off the faster than light connection before it reaches the sensor, my belief is that relativity tells us there's nothing there to be trimmed.
Refinements on Chaou's experiments I propose include measuring the speed on limbs of the spinning quanta one faster than light perhaps and the other slower, or moving the sensors in close to the nuclei where the tunneling is taking place in order to give a higher percentage of the time between the sensor and the source of the wave motion ect.
Einstein believed faster than light motion was possible just that whatever was going at faster than light speed had to always be continuing at that speed.
I believe that we can measure the speed of events like the collapse of the wave function inside or outside the quanta like the waves of the EPR being faster than light and only when they combine into the quanta is the limit by relativity reached.
Even while the interaction of these waves with the quanta is about how they may keep the classical electromagnetic field lines from a bunching up or kinking, and how they are generally only probabilistically seen because their level of interaction with the quanta is only cumulative, these interactions are not impossible to find. But the reason the EPR has been so tough to definitely prove or disprove would be because while Einstein was basically wrong that no information could get through from the faster than light motion of the waves, most of the information is limited by relativity and the quanta.
I believe that there may be a conservation law, you can only have an uneven number of Higgs going in and out of the ROA of heavy quanta on the outside, because you have an uneven number of Higgs for it to be attractive like through gravity.
And it's like a conservation law, like the odd number of forces attract like on the periodic table, the odd number nucleons have different resonance and are heavier than the even number ones.
So I think it's possible there's a conservation law. And it's also possible that we'll never be able to do this even with the LEH around the heavy quantum, because there will be something like that, some kind of way that we can't do this. I think it's possible and I don't discount the possibility of this. If you're doing experimental physics you're welcome to do more research.
Haisch believes somehow this idea might allow physics like 0 mass quanta but he had no idea how, and he thought this may be possible in several centuries. These ideas of mine might be a possible way of improving this type of physics in years if the Higgs's laser becomes viable.
One thing we could find out about this is with what I call the relativistic wind tunnel RWT. With the RWT we can test this idea. Basically, we take the light streaming past the small lab starship or other mass. We try to observe something like the Lorentz contraction which has never been proven in the lab even while the rest of relativity has always been proven (except for acceleration, but as I believe, that isn't relativity).
Einstein said in his proof of relativity it was the same if moving the magnet or the wire, either one has relative motion to make the current, the motion is relative.
So we assume that if we move that low energy field past the small mass in our lab, we can measure relativistic effects quite well, including the possibility of taking the Higgs laser and testing it to see if we could actually go faster than that speed.
One other advantage of this idea that the low energy field is flowing past the mass is that it might cause gravity and more gravity if we want it like on the moon or have low gravity, they're having to be stressed because of low gravity. Good for elevators.
Sungean says that in special relativity, we move through the field.. while with gravity, the field moves through us. Even so except for the speed of light changing with gravity (a problem for the relativity of gravity) this is true for both gravity and inertia. This may mean we can try to create gravity in the RWT and perhaps even antigravity.
You may ask where is this low energy field?
I think it may be dark energy for centrifugal force and dark matter for centripetal force.
Just moving around the room shows the influence of the force. An entire generation of mathematical physicists devoted themselves to the information that the field exists. Einstein spent a lot of time thinking about the motion of masses relative to each other, and ignoring work done on the field.
I think gravity or mass are more important than energy in the energy energy equivalence of special relativity. Originally it was believed that most natural state for matter to be was at rest on the surface of the earth. Newton then improved this supposedly by saying that being at rest or in motion is the most natural way right, that's better.. Einstein them went on to say that being in high speed motion like with energy is the most natural way.
But I think we should return to saying that being at rest is more natural because work is being done on the field by the cohesive forces that hold all the quanta and masses in the universe together.
To me, like time mass is more important than energy or the energy energy equivalence (The mass augment of special relativity I believe is gotten mostly for motion through the field and that's energy of motion not mass) of relativity. Motion through space can be reversed but we don't forget the past and remember the future. We're trapped here in time and we can't travel around it like we can in space.
Mass is internal because you can't change your mass just by moving it around like you can weight.
I think space is external to the quanta but time is more essential.
Time order wasn't considered to be that important by Einstein. If two quanta are about to have radioactivity, and if the observer moves past at high speed like near the speed of light, an observer on one side would say the events in time are reversed from the events seen from the observer moving towards the quanta from the other side. This was relating to the idea of private time in special relativity. Because of the slow speed of light relative to the huge distance between us and even a star like Alpha Centauri, there is no definite before or after in relativity because that light is the only way to connect them up and they're really not connected.
But if we look at the unification of space and time in Special relativity, if moving backwards through space the observer should move backwards your time and this isn't true.
In Special Relativity the speed of the play back of the movie of the distant observer is changed but not the events themselves as we would expect if relativity is complete.
As I speak about what I call the weight fields and the mass fields, since you can change your weight at will by going around the Earth or Wegovy!..But you can't change your mass, then the mass fields for the internal conservation of energy are more important, like a small clock that keeps the time.
This is internal time and it's actually separate from the external influence of special relativity.
So when the two quanta have the time events the internal underlying stability of the physics has a form where you can't completely magically transform away the order of the events in time.
There's no way to know when the two quanta will decay. If the high speed observer moves in the ratio of the two events is changed, so there is an underlying event and while part of it can be transformed away, it really is with a definite time order. This reminds me of a bucket of spinning water where the round edge of the water can't be transformed away by choosing the right frame of motion.
Or, consider a mass being dropped on an airplane. By relativity either the observer on the plane is as valid to say the mass drops straight down yet the observer from the Earth would say that it's moving in a parabolic arc like from right to left.
But if the Earth's perspective is more valid than say the moons which moves around the Earth and they don't fall at equal rates around each other, the Earth's perspective can't be transformed away as easily. This would be because gravity and inertia aren't really the same, inertia of the x and y coordinates of the ballistic arc is completely independent of the gravity. Indeed gravity is doing work on the field or we would fall off the Earth.
Special relativity has a lot to do with inertia and inertia has been called pseudo-gravity, because it's really not as essential as the internal stability caused by the internal spin of the quanta which might be faster than light to explain deep inelastic scattering and the success of renormalization.
When you send in a quanta of light to a couch the couch doesn't collapse with all the wave functions collapsing because of this underlying stability that relativity tells us should not be there since it's all relative to the observer.
This might be because time and mass are more important.
And I would think if we can make these machines we may be able to render mass to be massless and prove the concept with the RWT. We could also add mass to quanta for more gravity where we want it perhaps.
Not only would the high speed starship travelers not be much influenced by the field e.g. chemically, with the shield on the outside, I would think since relativity has so much to do with time, we might find a way to make the time go at the same rate we wanted to. By this we might imagine traveling a billion light years and coming back and no more than a half an hour is passed on Earth or on the ship either one.
These are some of the possibilities. I know they're theoretical, but they might be possible.
Hope you liked reading this. It's fun to write it and thanks for listening to what I say with type!