The ultra-fast lasers and nanotubes are new tools to control quantum systems.

Quantum dots and ultra-fast laser impulses are the tools for next-generation quantum computing. The ultra-fast attosecond lasers can act as ultra-accurate scanner systems. The fast laser flashes can scan structures. That is invisible to scanning tunneling microscopes. But the attosecond lasers can also drive information to the qubits. 

In some ideas, the system that is similar to a scanning tunneling microscope forms a structure that looks like a scanning tunneling microscope. The styluses that hover electrons between the layer and stylus are in comb-like structures. The attosecond lasers will transport information into those electrons, that act as transporter dipoles for the information. When laser ray hits electrons. They resend that radiation in the form of photons. 

If the system uses excitons for data transmission the series of fullerene molecules can used to protect the exciton chain. Information travels between those quantum lanterns. Those quantum lantern chains can be in lines and rows. And information can travel vertically and horizontally. 

The thing is that quantum computers are looking for their form. Those systems are becoming more and more advanced. And they learn to drive more and more complicated data structures. 

"Photoinduced bipolaron-to-polaron formations distorting a quasi-1D lattice of atoms play a major role in the formation of the pseudogap. Credit: Steven Burrows/Murnane and Kapteyn Groups" (ScitechDaily, Ultrafast Laser Pulses Unmask Quantum Materials and Superconductivity)

"Illustration showing light exciting electrons in two molecules of the organic semiconductor known as buckminsterfullerene. The newly formed exciton (shown by the bright dot) is first distributed over two molecules before it settles on one molecule (shown on the right in the picture). Credit: Andreas Windischbacher" (ScitechDaily, Quantum Leap: Pioneering Exciton Imaging Transforms Semiconductor Science)

"Waterloo researchers merge Nobel-prize winning physics and chemistry to enhance quantum communication efficiency and security. Credit: SciTechDaily.com" (Quantum Dots Ignite a New Era in Global Secure Communication)

In some models, the Hall-effect fields or resistance fields can used as qubits. The idea is that the system drives information to those standing waves around those wires. The blue lines in the upper image can portray those fields. Then the photons drive information to those fields. Then the system puts similar Hall fields that are at lower energy levels opposite to those fields. Then the higher energy field can transmit information between those energy fields. 

"The entangled photon source, an indium-based quantum dot embedded in a semiconductor nanowire (left), and a visualization of how the entangled photons are efficiently extracted from the nanowire. Credit: University of Waterloo" (Quantum Dots Ignite a New Era in Global Secure Communication)

Quantum dots make the next-generation ultra-secure data transmission possible. 

The next-generation quantum technology that uses so-called quantum dots and indium nanowires are the tools for high-power quantum networks. The system can put quantum dots inside the nanotube, and those dots can make it possible for an entangled photon chain can transport information in that nanotube. 

This is one of the most secure information transportation methods. If somebody tries to steal information that thing cuts the chain of those entangled photons. And the system detects the attack immediately. 

The main problem with quantum data transportation is: how to get information from the qubit into the wire. Quantum networks are more secure than regular networks because information travels in physical structures. It's also possible that the quantum network uses regular optical cables, where each wire is a qubit's independent state. The system can share the data between those wires. And then that thing makes it hard to break the protection. 

https://scitechdaily.com/quantum-dots-ignite-a-new-era-in-global-secure-communication/

https://scitechdaily.com/quantum-leap-pioneering-exciton-imaging-transforms-semiconductor-science/

https://scitechdaily.com/ultrafast-laser-pulses-unmask-quantum-materials-and-superconductivity/

AI uncovers interactions between particles and gravity fields.

"AI is emerging as a key tool in nuclear physics, offering solutions for the data-intensive and complex task of particle track reconstruction. Credit: SciTechDaily.com" (ScitechDaily, Unveiling New Physics With AI-Powered Particle Tracking)

The AI gives a new way to track particles. The AI-based analysis makes it possible for the system. It can collect information from multiple sensors. And compile that data with previous tests with ultra-high accuracy and speed. The AI can analyze the particle tracks in the impact chambers. 

It can observe particle behavior in particle accelerators. The AI can also collect data from things like telescopes and satellites and connect that data with data that the system collects from multiple particle accelerators that impact particles in different energy levels. 

This thing makes the revolution in physics. The system can compile the cosmic radiation effect with particle impacts. And that gives new data for the systematic models of the universe. 

That model is important for making things like gravitational models. The thing that supernovas send the gravitational waves is interesting. The idea is that gravitational waves are shortwave radiation or wave movement. The supernova energy raises energy levels so high that electromagnetic wave movement can start to interact with gravitational waves. The gravitational wave is wave movement. Which wavelength is different than electromagnetic wave movement? 

And then to the black holes. The thing that we can call the sombrero model is the tool that tries to explain the black hole models. The high energy center, energy hill, and the energy wall between standing energy waves make energy travel to the energy hill a good gravitational field model. In all gravity fields. Without depending on their strength. The black hole is the ultimate gravitational field. But it interacts similar way as other gravity fields. The depth of the energy valley in the sombrero model determines the gravity interaction's strength and direction. 

 

Sombrero-model

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The theoretical antigravity engine works like this. The system creates a sombrero-shaped energy field. The theoretical antigravity craft hovers in the middle of that energy hill. That energy hill moves craft forward. And the energy Walley pumps energy in that craft. 

Maybe, someday this system is possible.  

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J = total angular momentum, B = baryon number, Q = electric charge,
I₃ = isospin, C = charm, S = strangeness, T = topness, B′ = bottomness. (Wikipedia, quarks)

Researchers created the sombrero model for electromagnetic fields. But we can think that all wavelengths and power fields follow the same model. So how does the famous antigravity work? The idea is simple. There is forming a standing gravitational wave under, or around the object. Then the system must make the opposite sombrero. There must form the deeper energy Walley at outside the standing wave. Or the energy level inside the standing wave must be higher than the environment. Or the standing wave must simply deny the gravitational waves travel inside them. 

The second image shows how gravity works in a 2D environment. When particles rotate they roll energy or quantum fields, including gravity fields into the structure, which looks like a rope or stick. The particle or object hovers above the stick and presses the pothole in the gravity field. That pothole makes the environment or quantum fields fall in that pothole. Then that stick collects the energy and transports it to the object, and that thing makes it act like a gravitational version of the thermal pump. When the thermal pump moves electromagnetic energy, this pump moves gravitational waves.  

In the antigravity, the system must just cut that stick. That denies the form of the pothole. Or the system must send some radiation that fills the pothole. That makes the object hover. And if somebody wants to make an antigravity engine. That futuristic researcher must make the black hole or the "sombrero field" where that futuristic craft is in the middle of that energy hill. 

The third image shows how high-energy radiation pushes quantum fields from around it. That channel forms an effect where the field starts to travel in it. The image was made originally for a gamma-ray burst and a black hole's radiation interaction with its environment. If radiation has a high enough energy level. That radiation can also push the gravity field from around it. 

Quantum gravity has a similar effect. The energy flow or energy stick transports energy between particles and the base energy field. That energy forms low-pressure or potholes in energy fields. That energy channel or pothole forms the effect, where the energy field acts like water, which transports particles in that pothole. 

There are always three quarks in baryonic hadrons. Energy flow in neutrons that form one up and two down quarks creates energy flow that makes the pothole in the quantum field.  And that means that we can say, that neutron hovers above the gravity field.  

Between protons and their environment is a similar interaction. But the energy flow is weaker. The energy flow happens because the up quark energy level (mass) is lower than the down quarks. And energy flows through those up quarks. 

This is why neutron life is so short if it gets out from the atom nucleus. The energy flow. From down quark-pair impact an up quark. And that forms the standing wave that breaks the bonds between quarks. 

Energy flows straight out from protons through those up quarks. That effect squeezes the proton in a heap. But the main reason why a proton exists longer than a neutron is that there is no standing wave. When energy impacts the proton it travels straight through it. 

https://scitechdaily.com/unveiling-new-physics-with-ai-powered-particle-tracking/

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

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

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

The breakthrough in solid-state qubits.

Hybrid integration of a designer nanodiamond with photonic circuits via ring resonators. Credit

Steven Burrows/Sun Group (ScitechDaily, Solid-State Qubits: Artificial Atoms Unlock Quantum Computing Breakthrough)

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The next part is from ScitechDaily.com

"JILA breakthrough in integrating artificial atoms with photonic circuits advances quantum computing efficiency and scalability". (ScitechDaily, Solid-State Qubits: Artificial Atoms Unlock Quantum Computing Breakthrough)

"In quantum information science, many particles can act as “bits,” from individual atoms to photons. At JILA, researchers utilize these bits as “qubits,” storing and processing quantum 1s or 0s through a unique system". (ScitechDaily, Solid-State Qubits: Artificial Atoms Unlock Quantum Computing Breakthrough)

"While many JILA Fellows focus on qubits found in nature, such as atoms and ions, JILA Associate Fellow and University of Colorado Boulder Assistant Professor of Physics Shuo Sun is taking a different approach by using “artificial atoms,” or semiconducting nanocrystals with unique electronic properties. By exploiting the atomic dynamics inside fabricated diamond crystals, physicists like Sun can produce a new type of qubit, known as a “solid-state qubit,” or an artificial atom". (ScitechDaily, Solid-State Qubits: Artificial Atoms Unlock Quantum Computing Breakthrough)

"Because these artificial atoms do not move, one way to let them talk to each other is to place them inside a photonic circuit. The photons traveling inside the photonic circuit can connect different artificial atoms. Like hot air moving through an air duct to warm a cold room, photons move through the quantum circuit to induce interactions between the artificial atoms. “Having an interface between artificial atoms and photons allows you to achieve precise control of the interactions between two artificial atoms,” explained Sun". (ScitechDaily, Solid-State Qubits: Artificial Atoms Unlock Quantum Computing Breakthrough)

"Historically, there have been problems with integrating artificial atoms with photonic circuits. This is because creating the artificial atoms (where atoms are knocked out of a diamond crystal) is a very random process, leading to random placement of the artificial atoms, random number of artificial atoms at each location, and random color each artificial atom emits".(ScitechDaily, Solid-State Qubits: Artificial Atoms Unlock Quantum Computing Breakthrough)

https://scitechdaily.com/solid-state-qubits-artificial-atoms-unlock-quantum-computing-breakthrough/

JILA homepage: 

https://jila.colorado.edu/

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Making photonic circuits in solid-state materials is quite difficult. Making a photonic network in solid-state material requires channels or tubes inside that material. And in that case, photons can travel or transmit wave movement in those channels. Those channels can be made using nanotubes. Or a laser can drill those channels in solid materials. 

Making quantum computers in solid-state material is similar. As making photonic network. The system must make quantum entanglement between two identical particles. And the most suitable particles are photons. Theoretically is possible to create two photonic clouds with similarly oscillating and the lasers will send information into them. 

In some models, the system can use two oppositely positioned time- or photonic crystals for making quantum entanglement. Laser rays will first freeze those photonic crystals. 

And then those systems can create quantum entanglements between those photons. The photons are been the most useful qubits because they don't interact with EM. fields. In regular systems, photons are framed in the frame, and then a laser sends information to them. 

The new idea is to use nano-diamonds, or artificial atoms for these purposes. The artificial atoms are diamond-like, very small crystal structures. Those crystal structures can create photonic clouds in or around them. And then those systems can make a superposition between two photonic clouds. That is one of the versions of solid-state qubits. 

The problem is how to make photons travel around the nanocrystals. In some versions, the nanocrystal creates an electron ring where electrons travel in line. And then, the laser beam that impacts energy to nanocrystals makes those electrons send photons. 

The thing. What would make it easier to control qubits is that a large group of makers of the qubits can controlled. In the ideal case, the system can create the quantum entanglement between large entireties. And the nanodiamond with a photonic ring with resonators is one of the most promising things in the world.

The system could create an electron ring that orbits the nanodiamond. Then the oscillator sends energy to that ring, and then those electrons send photons. That kind of system requires highly accurate energy measurements. 

https://scitechdaily.com/solid-state-qubits-artificial-atoms-unlock-quantum-computing-breakthrough/

Plasmonic waves can make new waves in quantum technology.

"LSU researchers have made a significant discovery related to the fundamental properties and behavior of plasmonic waves, which can lead ot the development of more sensitive and robust quantum technologies. Credit: LSU" (ScitechDaily, Plasmonics Breakthrough Unleashes New Era of Quantum Technologies)

Plasmonic waves in the quantum gas are the next-generation tools. The plasmonic wave is quite similar to radio waves. Or, rather say it, a combination of acoustic waves and electromagnetic waves. Quantum gas is an atom group. In those atom groups, temperature and pressure are extremely low. 

The distance of atoms is long. And when an electromagnetic system can pump energy to those atoms. But the thing in quantum gas is that the atoms also make physical movements like soundwaves. It's possible. To create quantum gas using monoatomic ions like ionized noble gas. In those systems, positive (or negative) atoms push each other away. 

When the box is filled with quantum gas and some 3D structure is put in it the system can transmit energy in that gas. The energy release makes those atoms send energy impulses to that structure. 

When some atom is at the route of that energy impulse, it changes that wave movement's direction. And that makes it possible to create new types of sensor technology. The quantum gas can form waves where atoms travel in lines. And that thing makes quantum gas interesting. 

Another interesting thing is that the electrons and maybe, free quarks can also form quantum gas. In the standing electron cloud. The photons pump energy can used to send extremely short wave movement to the structure that is in the middle of it. 

That electron cloud can scan the details of single atoms. The smallest known particle, a photon can also create a photon cloud. Those standing photons can send wave movement. That can used to see things like bonds between quarks. 

When energy hits some particle. The particle sends wave movement to the electromagnetic field around it. That energy impulse forms a photon. Same way photons can send wave movement through the structure. 

One answer for making qubits safe is to put them in the bag. In this model, the hollow plasmoid bubble acts like a plastic bag that stabilizes the qubit. The high-energy plasma with low temperature can used as a protective field that protects qubits from outcoming energy. The problem with qubits is the changes in energy levels around them. 

The fusion reactor's high-energy plasma is possible to transform into qubits. The system can create quantum entanglement between standing photons in that reactor. And then it can transport information to another lower-energy plasma ring. The problem is how to make those photons stay in a static position. 

In some models, two high-energy plasma rings where another plasma ring can be in a higher energy level can transmit information to the lower energy level plasma ring. If those plasma rings have identical plasma structures, laser rays can transmit information through higher-energy plasma rings. And that makes information travel to the lower energy plasma ring. 

When the other photon is at the highest possible energy level. And the other is in the lowest possible energy level, that thing maximizes the quantum entanglements' existence. 

Plasmonic waves can transport information between multiple qubits at the same time. The idea is that the qubits are like buoys in line, and then the plasmonic wave can raise their energy level as an entirety. 

Plasmonic waves can used to improve quantum technology. There is a small possibility that researchers can make quantum entanglement between those wavetops. Or in the system particle lines can be stable in the system. And the plasmonic waves can raise their energy level in groups. That allows to transport of information in multiple lines. That makes it possible to transport information in a quantum computer between multiple qubit lines. But that thing is in the future. 

https://scitechdaily.com/plasmonics-breakthrough-unleashes-new-era-of-quantum-technologies/

Is some quantum version of the bubble pulse effect behind the dark energy?

 

"Dark energy’s role in propelling the universe’s accelerated expansion presents a pivotal challenge in astrophysics, driving ongoing research and space missions dedicated to uncovering the nature of this mysterious force." (ScitechDaily, Deciphering the Dark: The Accelerating Universe and the Quest for Dark Energy) 

Is the universe formed in energy projection? That traveled in some kind of space vacuum. That requires. That there was some kind of energy field before the Big Bang. 

Quantum field is the common name of all power fields in the universe. 

Is dark energy a gravitational version of the bubble pulse effect, that detonates submarines? In the bubble pulse effect, the bubble or some other projection. That travels in the larger bubble causing a very high explosive explosion. So could that effect be possible in electromagnetic and gravitational fields? Gravitational fields differ from electromagnetic fields because of their wavelength. 

In some models, the double bubble, or bubble pulse effect is the thing. That forms the annihilation reaction. In annihilation particle, and its antiparticle turns into energy. There is the possibility that antiparticles and particles protrude in each other. 

That forms the double bubble, their small quantum field projection falls through those particles and pushes their quantum fields away. In that process, the antiparticle and particle first form the quantum channel between each other. And then the quantum projection travels in those particles or bubbles to form an energy pulse that is similar to the bubble pulse effect. 

Sometimes people ask, what is dark energy? One answer could be that dark energy is quantum field interaction. Quantum fields are the common name for all power fields in the universe. Higgs field, gravitational field, or electromagnetic field interaction. The idea is that. There is an energy projection that pushes other energy fields from around it. 

Above: Bubble pulse effect. 

In some visions, the high-power magnetic field or some kind of thing like FRB (Fast Radio Burst) can create the impact where energy projection travels through the star. And in that case, the shockwave can detonate even big stars. 

If that energy projection creates a false vacuum around it, that thing can cause an effect that looks like gravity. Those short-term false vacuums can move the hypothetical Higgs field or base energy field in it. And that causes the gravitational effect around those virtual particles. Things like lower energy pockets in gravitational fields can cause a gravitational version of the bubble pulse effect. Same way electromagnetic low-energy pocket in the electromagnetic field forms the double bubble effect. 

We know that energy cannot form from emptiness. And the vacuum cannot form energy. But there is one little point in this model. There are no absolute vacuums in the universe. All vacuums that we know are so-called false vacuums. That means there are energy fields in the false vacuums, and when we talk about vacuum energy, we should call that thing the field amplification. 

The model of field amplification is seen in the models that introduce how the submarine collapses. When a submarine's hull collapses, especially at the bow or back that thing forms water impact, where water travels in the submarine at a very high speed. That water presses air to pressure that is as high, or even higher than the pressure that diesel engines create when it ignite the fuel-air mixture in a cylinder. This effect is called the bubble pulse effect. 

The film about submarine implosion involves the part, that handles this bubble pulse effect. The part begins at about 10.30 in that film. 

The universe is full of plasma, electromagnetic, gravity, and possible Higgs field. The common name for those fields is the quantum fields. If there is a pocket with a lower energy level or lower energy density the quantum field travels into that lower energy pocket. The speed of that energy is higher than it usually is, and then it impacts the other side of that low-energy bubble. When that energy projection travels through the false vacuum it delivers energy to its environment. And it gets more energy from backward. 

There is the possibility that this kind of effect, where first forming a lower energy area or lower dense plasma causes an effect that Higgs field or plasma travels in that pocket. In that case, the Higgs field, plasma, or gravity field can interact same way, as water interacts with air in a collapsing submarine. There are also gravitational fields, and the gravitational energy interacts the same way as water. 

https://scitechdaily.com/deciphering-the-dark-the-accelerating-universe-and-the-quest-for-dark-energy/

Quantum gravity is the key to larger-scale gravity models.

Quantum gravity is the gravitational effect between the smallest known particles. Understanding quantum gravitation requires that all other effects be stripped off. So that researchers can measure the gravitational effect between subatomic particles. 

There is the gravitational effect between protons and neutrons, as well as, the gravitational effect affects things like electrons and their movement around nuclei have gravitational effect. But the other three natural forces or interactions cover that gravitational effect below them. 

Electromagnetism and weak-, and strong nuclear forces cover the gravitational effect between electrons and an atom's nucleus. Quantum gravity is different than full-scale gravity because the object's size is far smaller. And there are also other power fields than just gravitational fields. 

The gravity is wave movement like all other fundamental interactions. And that causes ideas that at the quantum level, there could be something that can reflect the gravitational radiation. That reflection happens on an extremely small scale. And maybe there may be gravitational reflection from bonds between gluon and quark. If that reflection is possible it's very hard to detect. 

The gravitational wave reflection is theoretically possible. That reflection requires extremely dense particles that cannot let gravitational waves sink in that structure. The extremely dense structure can theoretically act like a gravitational mirror, but that kind of thing is purely theoretical. 

The idea is that maybe photons can travel between quarks and interact straight with bonds that formed between quarks and gluon. Those photons can cause the energy bridges between quarks and gluons to start to oscillate like springs. So, could that wave movement be the source of some gravitational waves? 

Or is there an extremely small black hole between quarks and gluons? But in that case, it's also possible that photons can adjust their oscillation. And thing like material oscillation supports both models. 

"Researchers have developed a method to measure gravity at a microscopic level, marking a significant advancement in understanding quantum gravity. Credit: SciTechDaily.com" (ScitechDaily, Quantum Gravity Unveiled – Scientists Crack the Cosmic Code That Baffled Einstein)

What is gravity?

This gravity model requires a Higgs field. 

In this model gravity center just turns the base energy field, called Higgs field away. The black hole is the whirl the energy field travels so fast, that the outcoming energy field has no time to fill it. The black hole is like a tornado or whirl. The energy level in that whirl must be higher than outside the Higgs field. 

That causes gravitational radiation or gravitational waves. In that model black holes formed of whirls in Higgs field. And they are interacting with the Higgs field. Higgs field is the space, that takes other particles with it. In models, gravity interacts with the entirety. So Higgs field is like water that takes particles to the whirl. 

Because energy or wave movement in the Higgs field's frequency travels out from the black hole, that causes its vaporization. So gravitation is the Higgs field that travels into the gravitational center. And then the gravitational center aims those waves into the direction of its rotational axle. 

If we think that photons make the bonds between quarks and gluons oscillate, that oscillation can transfer energy or wave movement to the Higgs field or atomic power fields. And maybe that thing makes gravity waves hard to detect. So gravity waves are wave movement in the Higgs field. The reason for gravity is that the particle or gravity center moves the Higgs field into some other direction. The thing that causes gravitational pull is the lower energy area in the Higgs field near the gravitational center. When the gravitational center pulls the Higgs field into it, that thing forms the lower energy area in the Higgs field. That causes an effect where the Higgs field travels to fill that lower energy area. 

The reason for the black hole's existence is that the fast spinning field or gravity center transfers the Higgs field away from its center so fast that the outcoming field cannot fill the whirl, called the black hole. But that whirl turns smaller and smaller all the time. And that thing is the thing called vaporization. So the black hole behaves exactly like tornadoes. Sooner or later the outcoming energy fields break the black hole, like outside pressure breaks the tornado or breaks it. The pressure in the black hole's energy field must be higher than the outcoming energy field. That energy field around the black hole keeps in its form. Then the outside energy field breaks that structure and caves in the black hole. 

https://scitechdaily.com/quantum-gravity-unveiled-scientists-crack-the-cosmic-code-that-baffled-einstein/

https://simple.wikipedia.org/wiki/Higgs_field

Researchers found how HIV cheats the immune system.

 

"The artist’s impression shows how the HIV capsid penetrates the jelly-like permeability barrier of a nuclear pore. To smuggle its genome through this defense line into the cell nucleus, it has evolved into a molecular transporter. Credit: Johannes Pauly / Max Planck Institute for Multidisciplinary Sciences" (ScitechDaily, The Invisible Assault: New Research Reveals How HIV Outsmarts Cellular Security)

The thing how HIV takes entire cells into control is been a mystery. The researchers found the answer. The virus' genetic material is packed in the ball, or pore there are thousands of proteins. HIV uses that thing to cheat the cell and transport its DNA to the nucleus. 

Another way would be that HIV takes some cell organelles under control by sending the RNA to that organelle. That thing allows the virus to order cell organelles to produce new viruses. But in this method, the HIV starts to take the entire cell under control. 

And the thing how that virus makes this thing is interesting. HIV just transforms the mechanism. That is created for the cell's protection to carry its DNA into the nucleus. Normally. The mechanism where the cell uses a carrier involves lots of proteins. And that protects it against viruses. That key is not very easy to capture. 

The pore there is thousands of proteins means that HIV has a master key that fits into the T-cell keyhole. Normally when a virus infects cells, it sends marks that it's infected. And that thing calls the T-cells to mark it. But when the T-cell itself is infected. There is no mark. That makes it call other cells to destroy it. 

That causes a situation in which the T-cell starts to produce HIV viruses. The pore that involves the T-cell detection proteins makes those cells helpless against HIV. First, the infection travels in T-cells. The role of the T-cells is that they mark infected cells. But the problem is that the infected T-cell can't mark itself. 

The reason for researchers are interested in this mechanism is simple. They need it to create vaccines. But the other thing is that researchers want to use this thing as the system, which makes HIV cheat cells is that they want to use it in biotechnology. This system gives the ultimate ability to transport genetic material into the cells. The ability to cheat the DNA makes it possible to give gene therapy using only injections that are as easy as vaccines. 

It can also make it possible to increase the effectiveness of gene therapy. The system can inject pores there is DNA into the human body. There the DNA makes infected cells create new viruses. And that gives the possibility to give extensive gene therapy. 

https://medicalxpress.com/news/2024-01-hiv-cell-center-kickstart-infection.htm

https://phys.org/news/2024-01-hiv-smuggles-genetic-material-cell.html

https://scitechdaily.com/the-invisible-assault-new-research-reveals-how-hiv-outsmarts-cellular-security/

https://scitechdaily.com/unlocking-hivs-stealth-entry-study-reveals-how-it-breaches-the-nucleus/