Does Heisenberg's uncertainty principle fall, because the attosecond technology gives so accurate values?

   Does Heisenberg's uncertainty principle fall, because the attosecond technology gives so accurate values?

We can increase our accuracy forever. That helps us to see things that are not been possible before. And if we want to determine at the same time the electron's movement or "where the electron is going" and "the point where the electron is"  we cannot get very accurate values. But we cannot get precise values. 

When we increase accuracy we can get so close to precise or absolute values that errors lose their effect and meaning for values. But there still is minimal error. That has no practical meaning for values and tests. So the focus in those measurements is, or it should be to minimize the uncertainty effect from measurements. 

Together those things are limits or limit values (sometimes called limes). The value is close to the precise target value, but it never reaches it. The electron curtain is a combination of wave movement and particle-form electrons. 

One cannot simultaneously determine the position and momentum of an electron". That is the quote called Heisenberg's uncertainty Principle. The uncertainty means that we must accept certain error levels. "You can find out where the electron is, but not where it's going." Or "You can determine where the electron is going, but not where it is". So you can determine the Delta Vector (Change of place) of the electron but not the point where the electron is. The reason, why all measurements about that thing are wrong is that an electron is moving when information travels out from it. 

When information travels between the sensor and electron, that takes a small moment because the information has a speed limit which is the speed of light. So we can make very accurate measurements about that topic, but at the same time (or moment) we can't determine the change of the electron's position and electron's precise point. But if we separate those missions we can very accurately determine the electron's precise location point at a certain moment. Otherwise, we can determine very accurately the change between two positions where the electron is between certain time units. 

In the uncertainty Principle, the certainty is not precisely determined. The certainty is limited in values. The limit is the marginal where the result can be acceptable. That means we can take the focus to the system, and make the more accurate information about the particle's position, but we cannot reach absolute certainty. This means that Heisenberg's uncertainty Principle is one of the things that can fall, but at the same time, it remains forever. The idea of Heisenberg's uncertainty Principle is that we can determine the electron's position in the orbitals. The attosecond systems can make it possible to reach more and more accurate images of the electron's position. But that position is not precisely determined. 

https://www.mikrobitti.fi/uutiset/heisenbergin-ennustus-kumottu-tallaiset-loydokset-toivat-fysiikan-nobel-palkinnon-2023/cc8418e2-c5fb-4157-8763-2d6908f56948

https://www.nobelprize.org/prizes/physics/2023/summary/

https://pubs.acs.org/doi/10.1021/cen-10133-scicon2

https://en.wikipedia.org/wiki/Limit_(mathematics)

The miniature particle accelerators have two interesting solutions.

    The miniature particle accelerators have two interesting solutions. 

The miniature particle accelerators can revolutionize aviation. 

The miniatured particle accelerators can make the "cylinder-shaped UFO" possible. Those particle accelerators will send particles in all directions. And that makes the silent levitation possible. The image above is the artwork of those cylinders. If that craft would be real. The hovering engines are seen below. 

The less than mm.-size particle accelerators can used for next-generation aircraft propulsion. The aircraft's body and wings might be equipped with scratches where those particle accelerators are. That system can give a very fast specific impulse. The miniature particle accelerators can accelerate electrons to a speed that is 100,000 km/s. And the speed of those electrons can accelerate with laser rays even higher. 

The system can use some other propellant, that electrons vaporize. And that thing can create more thrust from the nano-size particle accelerators. In some visions, those particle accelerators shoot positrons and electrons together. And that annihilation makes energy. If that nanotube-based system works,  it will installed into aircraft. That will make new and fundamental avionics possible.

X-51 Waverider

The miniature particle accelerators can installed in ramjet and scramjet systems. Those systems can make next-generation hypersonic systems possible. Particle accelerators can transport plasma through them. In these kinds of systems, the laser or other electromagnetic systems ionize air, and the accelerators pump through them. 

If developers install this system into the disk-shaped structure. The system puts electrons to rotate the structure like in LP disks. That thing can make it possible to make the time dilation in the system. 

In some visions, the nano-size particle accelerators will be installed in a ball-shaped structure. Those systems allow that structure to fly in any direction where it wants. The particle accelerators can use in miniature aerial vehicles (MAVs), that can travel at very high speeds. Those systems can create a drone swarm there are billions of individual drones. And this kind of system's military application could be a sandstorm that advances in hypersonic speed. 

SR-72

The miniature particle accelerators can make the new plasma stealth possible. The craft's body will covered using the miniature particle accelerators. These are used to create plasma over the craft. The plasma system can connect with the ramjet or scramjet. The plasma system will make the plasma around the craft, and then magnets pull it in the scramjet or ramjet. That allows the engine to start in place. And that could be an extremely innovative solution for hypersonic stealth technology. 

Developers can use miniature particle accelerators in submarines. They can make the new type of MHD (Magneto-Hydrodynamic Drive) possible. 

Those miniature particle accelerators also make it possible to create pocket-size nuclear explosives. The particle accelerators can shoot ions and anions together. And that thing could make it possible to create small-size portable hydrogen bombs. 

"Researchers have developed nanophotonic electron accelerators, marking a significant step towards miniaturizing particle accelerators. These new accelerators are the size of a computer chip, leveraging lasers to speed up electrons. Such advancements could lead to direct internal radiotherapy using endoscopes in the future". (ScitechDaily.com/Accelerating the Future: World’s First Miniature Particle Accelerator Unveiled)

The miniature particle accelerators can make the room-temperature quantum computers real. 

Sometimes is introduced that things like quantum LEDs can act as the axon's ends. The number of working LEDs determines the state of the qubit. And then the receiver has miniature silicone cells, that transform the photonic information into electricity. The LED-based optical qubit can be a bee cell-looking structure. 

But the miniature particle accelerators can do the same thing with those LED-based systems. 

The miniature particle accelerators can make artificial neurons near reality. The particle accelerators can be at the end of the system. That transmits energy and data in optical wires. And then those particle accelerators would be at the holes between those artificial neurons. Those miniature particle accelerators can send electrons over the axon gap, and those electrons can be like neurotransmitters. 

If those particle accelerators are in a group that is like a bee cell, that system can make the room-temperature quantum computer possible. The number of electrons that the system sends determines the qubit's state. 

https://futurism.com/the-byte/tiny-particle-accelerator-fits-on-microchip

https://www.laserfocusworld.com/lasers-sources/article/16571391/laserbased-microchip-particle-accelerator-can-benefit-industry-and-medicine

https://scitechdaily.com/accelerating-the-future-worlds-first-miniature-particle-accelerator-unveiled/

https://systemx.stanford.edu/news/2020-01-04-000000/new-particle-accelerator-fits-silicon-chip

https://thedebrief.org/lockheeds-sr-72-spy-plane-may-be-autonomous-and-reach-mach-6/

https://www.xairforces.net/newsd.asp?newsid=394&newst=7

https://en.wikipedia.org/wiki/Boeing_X-51_Waverider

https://en.wikipedia.org/wiki/Lockheed_Martin_SR-72

The distorted photonic crystals made a pseudogravity effect on light beams.

 The distorted photonic crystals made a pseudogravity effect on light beams. 

Pseudogravity is an effect where some "non-gravitational" object acts like gravitation. The photonic crystals acted like a gravitational effect and split the light beam into two parts. Reseachers can use that thing to share laser beams to two routes without affecting their information. 

The photonic crystals could allow the system to share identical information between two quantum computers. And that thing can make it possible to create or improve error detection in quantum computers. 

The fact is that we can think of wave movement as mountains. When another wave movement impacts the main wave movement, those wave movements can exchange information if the tops of those mountains are close enough to each other. In that case, the information or energy travels from the higher energy waves to the lower energy waves. 

A conceptual image of the distorted photonic crystal and photonic crystal. Credit: K. Kitamura et.al. (ScitechDaily.com/Einstein’s Theories Revisited: Scientists Produce “Pseudogravity” Using Photonic Crystals)

"The experimental set-up and simulation results of beam trajectory in a DPC. Credit: ©K. Kitamura et.al." (ScitechDaily.com/Einstein’s Theories Revisited: Scientists Produce “Pseudogravity” Using Photonic Crystals)

If we want to deny the reflection or wave movement travel to the layer. We must just put that wave movement to travel through a  lower energy wave movement that has the same wavelength but a lower energy level. That lower energy wave movement pulls a little bit of energy from the higher energy wave movement. 

Sooner or later, that higher energy wave movement loses all of its energy to those "vampire rays". The idea is that those vampire rays travel through the outer layer of the laser ray. And that can transfer part of the laser ray into the other way. 

The other version is to shoot a higher higher-energy laser beam to a lower energy laser beam. In that case, the higher energy laser turns the route of the lower energy laser beam. 

But that pseudogravitational effect can used to make the layers invisible. In that case, those photonic crystals just aim for optical light waves in the direction that they cannot reach the layer. That thing can make the ultimate stealth possible. And sometimes some people are introduced. This technology is the reason, why some aircraft, ships, and other things turn invisible or loose from visible tracking. The optical stealth systems are the ultimate secret. And that kind of system possibly exists. 

https://scitechdaily.com/einsteins-theories-revisited-scientists-produce-pseudogravity-using-photonic-crystals/

The miniature particle accelerator can make fundamental observation, engine, and weapon technology possible.

    The miniature particle accelerator can make fundamental observation, engine, and weapon technology possible. 

The particle accelerator that size is less than mm. can make the new portable electron microscopes possible. The developers can use this technology in small ion engines. And there are also weapon applications that can benefit that technology. 

The developer can use a small particle accelerator to drive other particles in the desired direction. Or they can act as an electron source for larger particle accelerators. Those small particle accelerators can also aim to impact particles precisely to the desired point in the particle's track. 

Those miniature particle accelerators can shoot qubits or electron-shaped qubits in the quantum computers. 

The smallest particle accelerator in the world accelerates electrons and ions to the speed of 100,000 km/s. The particle accelerator's size is less than 1 mm. Or sharper saying that particle accelerator's size is 0,2 mm. And that means it fits into a microchip. Researchers can use this particle accelerator to find the secrets of living cells. 

This small particle accelerator can be used as an electron microscope that controls the material formation process. It can find things like anomalies in microchip structures. And it can be the portable or "briefcase" model of electron microscopes. That system can bring electron microscopes to field operations.

The developers can use portable miniature particle accelerators in the fundamental engine and laser solutions in the civil and military sectors. 

If researchers can use that nano-size particle accelerator to create antimatter. That thing is the most fundamental system in the world. 

 An accelerator chip is shown on the tip of a finger along with an electron microscope image of the chip. (LaserFocusWorld.com/ Laser-based microchip particle accelerator can benefit industry and medicine)

 

"As electrons flow through this channel etched in a silicon chip, laser light (shown in yellow and purple) accelerates the particles to high speeds. Credit: Neil Sapra" (https://systemx.stanford.edu/news/2020-01-04-000000/new-particle-accelerator-fits-silicon-chip)

 (https://systemx.stanford.edu/news/2020-01-04-000000/new-particle-accelerator-fits-silicon-chip)

Antimatter engines and laser systems can use this particle accelerator for making antimatter. 

The antimatter causes extremely bright flashes when it annihilates with its mirror particles. In that process, annihilation turns particle-antiparticle pairs like electron and positron (anti-electron) into energy. That causes a bright flash. If those flashes are around laser elements like carbonite crystal or carbon monoxide laser they can be used as flash tubes to pump energy to that laser. 

This kind of small nano-particle accelerator can also create positrons that can shoot into the air. That thing causes annihilation and the system can installed in missiles. Or it can used as antimatter mines. When the enemy comes to that area. The system bursts antimatter particles into the air. 

But this type of system can make many other things than just act as a small and portable electron microscope. There is the possibility to use this small particle accelerator in fundamental ion engines. Engineers can use ion engines in saucer-shaped airships. Engineers can cover the entire saucer-shaped craft with this system. 

And also, nano-size spacecraft and other flying systems can use this kind of engine solution. The system can use annihilation. 

The particle accelerators turn electrons into positrons. Then the system can shoot them into the air. That forms thrust in nanotubes. And if those nanotubes are all around the craft, that gives it fundamental maneuverability. 

The other version of ion systems is that the system pushes ion flow to the front of the craft. That thing can form a vacuum that pulls craft forward. In that system, the engine uses regular ions. The system ionizes the air around the craft. And then magnets or ions with the same polarity push those ions away forming a vacuum that pulls craft to it. 

The nano-size particle accelerators can also operate as death rays. The death ray that Nikola Tesla developed was an electron- or so-called beta cannon. The beta cannon accelerates electrons that hit to target. Those electrons cause damage to chromosomes. 

https://futurism.com/the-byte/tiny-particle-accelerator-fits-on-microchip

https://www.laserfocusworld.com/lasers-sources/article/16571391/laserbased-microchip-particle-accelerator-can-benefit-industry-and-medicine

https://systemx.stanford.edu/news/2020-01-04-000000/new-particle-accelerator-fits-silicon-chip

Retrocausality: when the reaction comes before action.

    Retrocausality: when the reaction comes before action. 

When the ball moves, before someone kicks it.  Or we can say otherways retrocausality is like backward-moving film. 

Sometimes, the term retrocausality determines that the reaction is before action. In linear time, the reaction comes after the action. But in retrocausality, action and reaction come to an observer in the opposite order. So if a soccer player kicks a ball. The retrospective model of that reaction is that The ball moves before the soccer player kicks it. 

When we think about the retrocausal model we can imagine that the action and reaction are like the pistons and the ball traveling in a tube. The piston is the action and the ball is the reaction. 

When the piston moves and impacts the ball, the causal reaction is that the ball moves after the piston. In the retrocausal model, the ball travels to the tube. Then the ball moves the piston backward. So the retrocausality is like a backward-moving film. In this model, the piston and the ball are information, and the tube is the time. 

The wormhole takes material through space and time. A black hole is the wormhole itself.  We might think. That retrocausality is the case, where a wormhole brings information from the future to the past. The idea of retrocausality is simple. When the energy level in the particle rises high enough, time dilation turns backward. In this case, the escaping velocity from the particle is the same as the speed of light time stops. And the particle's aging ends. 

When escaping velocity turns higher than the speed of light. Time starts to travel backward. If we think that wormhole is like well. The retrocausality is like a pressure wave that travels up from the wormhole. So if we throw the stone hard enough, it may return from the future to the past. But we need a very high energy level so that the stone itself can return from the hole. 

The past is a higher energy level than the future. That thing causes linear time. 

Time began with the Big Bang. The universe's temperature decreases all the time. That means it loses its energy, and the past is at a higher energy level than today and tomorrow. Energy travels from the future to the past. And if we want to send something to the past we must increase the energy level of the sender higher than the receiver. 

And if we think that this tube is the time, the reason why pushing that piston and ball back to the point where everything begins is that the tube is on the hillside. We must raise the energy level in the retrocausal model so high, that it can push the piston to the top of the hill. So we must kick the ball to the tube so hard that the kick gives so much energy that it can push the piston and the ball through that tube. 

There is the possibility of bringing information from the future to the past by using quantum entanglement or superposition and quantum entanglement. In that model, the superpositioned and entangled particle pair. First one particle will turn to a higher energy level than the other. 

Time dilation causes the lower energy particle to travel faster than the high energy particle in time. 

In some models photon that travels around the superstring forms so high-energy impact wave, that can cause an energy impulse that travels back in time. In that model, the photon travels in the universe around the wire called a superstring. The photon forms a small impact wave at the front of it. And if the energy of that impact wave rises high enough, it causes an echo that travels back in time. 

When the distance between those particles in time is high enough, the particle's sides will turn opposite. The particle that the system sends to the future will rise to a higher energy level than the particle in the past. Because energy travels into the lower energy level. That turns the information flow to the past possible. 

The thing is that thermodynamically is impossible to bring information from the future to the past. The reason for that is that the energy level in the universe is lower in the future. And energy or information always travels in the lower energy direction. 

But it's possible to bring information from the future to the past.  Using superposition and entanglement. In that model, the energy level of some particles can rise so high that information starts to travel opposite direction. Using this kind of system could be possible. To transfer information from the future to the requirement for that is that the energy level of the active transmit particle is higher than a recessive particle in that entirety. 

https://en.wikipedia.org/wiki/Retrocausality

Quantum dots and nano-diamonds are key elements in photonic and quantum computers.

    Quantum dots and nano-diamonds are key elements in photonic and quantum computers. 

Quantum dots brought the Nobel prize. Quantum dots are tools that are used in electronics like LED lights and TV monitors. The color of quantum dots depends on their size. That ability is the thing that can make quantum dots useful in photonic and quantum computers. Each light color is a certain wavelength. 

Researchers can use quantum dots to create photonic- or laser-based quantum computers. Each quantum dot can send data at individual wavelengths. That allows researchers to create a photonic network where each route has a different wavelength. Because light travels in the photonic network in different wavelengths. That makes it possible to minimize turbulence from that system. 

"Professor Michael Hecht and his research group at Princeton have made a significant discovery in the field of chemistry by creating the first known de novo protein that catalyzes the synthesis of quantum dots. Quantum dots are nanocrystals with fluorescent properties that are used in a range of electronic applications, including LED screens and solar panels. This new method of creating quantum dots has the potential to be more sustainable and environmentally friendly than current methods, as it demonstrates that functional materials can be synthesized using protein sequences that are not derived from nature". (ScitechDaily.com/Princeton Chemists Create Quantum Dots at Room Temperature Using Custom Protein)

"In the realm of quantum communication, the fragility of qubit transmissions resembles the information distortions in the children’s game of telephone. Scientists are now leveraging defects in diamonds to construct quantum repeaters. These repeaters bridge gaps between quantum systems, allowing for more reliable data transfer, with potential applications ranging from artificial intelligence to satellite navigation".(ScitechDaily.com/Diamond Brilliance at MIT: Quantum Repeaters Revolutionizing Networking)

The new nanodiamonds are tools that can make quantum networks easier to build. The nanodiamonds act like optical switches. And those things can connect with quantum dots, that thing can be the revolution for the next-generation quantum networks. The ability to change the wavelength of the light makes it possible to minimize the mutual non-controlled effects from the quantum network. In some futuristic quantum computers and planned portable quantum computers. The energy level that the laser uses, determines the the qubit's states. And the wavelength can also determine those layers. 

When data comes from a binary system the quantum system must share it between the layers of the qubit. The system can drive data to linear memory that sends the bit row to the bit line. Then the system must drive that data concurrently forward. And this is the problem with this kind of quantum computer. 

The information that the system processes must stay without outside turbulence. The laser beams carry data. And if those frequencies in each data handling line are different, that minimizes their mutual effects. The information can travel in laser rays in the form of superpositioned elementary particles is not the only way to create qubits. The other version is the laser rays that transmit information from the qubits. In that kind of system, the color or wavelength of the radiation is one state of qubit. These kinds of systems might operate at quite nearly 0 Celsius. And that is a great advance in quantum technology.

https://scitechdaily.com/diamond-brilliance-at-mit-quantum-repeaters-revolutionizing-networking/

https://scitechdaily.com/mits-quantum-maestro-professor-moungi-bawendi-shares-nobel-prize-in-chemistry/

Researchers can use planet Mercury's shrinking can to model dark energy.

   Researchers can use planet Mercury's shrinking can to model dark energy. 

The quantum-size Van Allen belts quantum-loops can explain dark energy. When the universe expands, that causes a situation where material turns to wave movement. The symmetry of how this thing happens may explain dark energy. In this model a very thin radiation wave. That comes from an elementary particle's spin axle can explain why we cannot see that material. 

Normally, we think that to find the reason why material is what it is, we must search the smallest possible particles. But otherwise, we can use large particle groups to make models, of how the smallest particles interact with other particles and wave movement. 

That means we could use the planet Mercury's shrinking for modeling the form of dark energy or some part of dark energy. Mercury's magnetosphere is not very strong. But it creates Van Allen belts or plasma belts around it. The power of solar wind is much stronger on Mercury, than it's on Earth. When those Van Allen belts trap particles radiation that comes from the sun like high-energy wave movement and high-energy particles hits those trapped particles sending high-energy radiation in X-ray frequency. 

The solar wind hits Mercury's Van Allen belts, forming X-ray aurora or X-ray flares. X-ray aurora sends energy impulses to Mercury. Even if that X-ray aurora is only in the Van Allen belt's Sun side, that thing forms a horseshoe-looking radiation effect into Mercury. That X-ray effect ionizes material on Mercury's surface in or on the planet's shell. Then magnetic field drives those ions to Mercury's poles. And that thing causes the shrinking of that planet. 

An extremely small quantum loop or quantum-size Van Allen belts around particles could explain dark energy. 

Researchers can use Mercury's shrinking to make a model of how material vaporizes at the quantum level. The wave movement hits particles and their quantum fields like it hits the Mercury. Every single particle in the universe has its halo, the quantum field. That surrounds particles. When a higher energy particle interacts with a lower energy particle, it sends a superstring around that other particle. 

The superstring is like a quantum-size Van Allen belt around the elementary particle. Energy interaction happens through that superstring. And then it reaches the loop that acts like a Van Allen belt or antenna. That loop sends energy to the particle. Then it forms the situation that energy travels out from the particle from its spin axle. That forms an extremely thin radiation pike. That comes out from the particle axle. If that pike is extremely thin it's hard to detect. And that thing could be one version of dark energy. 

https://futurism.com/mercury-wrinkles-shrinking

https://scitechdaily.com/mercurys-mystical-magnetosphere-mio-spacecraft-reveals-chorus-waves-and-x-ray-aurora/