Artificial bacteria are the biggest hope and the biggest threat.

   Artificial bacteria are the biggest hope and the biggest threat. 

Artificial bacteria are not. Like natural bacteria.  

DNA and mRNA are tools that can rewrite a cell's genetic code. That means the cell changes its shape and then starts to make different things than the original cells. The ability to program cells is an opportunity. And threat. The ability to remove hereditary diseases from the human body. The problem is that the same technology allows researchers to make  more perfect lifeforms. Than natural organisms. Artificial life normally means bacteria. Created using genetic reprogramming. In that case, the DNA bits will be collected and connected into the new form. That allows researchers to create bacteria that create antibiotics and spider silk, which is the strongest material in nature. 

Bacteria can be reprogrammed to search and destroy cancer cells. And probably, genetically engineered cells can form tissues for the bioprinters. Reprogrammed bacteria can also make it possible to create a large mass of things like skin. In that case, bacteria are on the nutrient platform, and the system just changes the DNA in their nucleus. Theoretically is possible to create anaerobic bacteria. That releases oxygen into blood vessels. That kind of anaerobic, biological oxygen synthesis is one of the most fascinating things in biotechnology. 

The ability to create artificial bacteria allows researchers to create new types of biological weapons. The same thing. That allows bacteria to search and destroy cancer cells. Allows weaponized bacteria to find things. Like neural structures or the blood vessel wall. And then attack those vital tissues. That kind of bacteria is very dangerous. There is a possibility. The bacteria themselves copy the targeted person’s cell antigens into themselves. And another dangerous thing is that. Those bacteria can destroy themselves after a certain time. When we think about the perfect, artificial organisms, we must realize that those organisms can turn the “Alien” movie monsters into reality. 

There can be infectious bacteria that can create things. Like the HIV virus at the same time. That allows those bacteria to destroy the immune defense at the same time. Here, we must remember that artificial bacteria are made. Connecting DNA bits together.  It is not like natural bacteria. That means those bacteria can make things. That is not possible for natural bacteria. 

Researchers can create artificial organisms, and the same technology that makes bacteria resistant to poisons can turn them resistant to antibiotics. When we think about aliens, we might think of a very complicated lifeform. from outer space. The fact is that the term “alien” means something non-natural. Biolaboratory can create aliens that nothing can resist. Those aliens are not like humans; they are microscopic organisms. Those creatures can be a fast-increasing bacterial population. Those bacteria can look like hospital bacteria. 

The thing that protects us against immune-resistant super bacteria is their complicated form. Their population will not increase fast enough to it can cause problems outside the hospitals. Natural bacteria destroy those organisms very fast. The biggest threat is the super bacteria that can increase their population too fast. If antibiotics cannot destroy those bacteria. They can cause problems. 

https://futurism.com/scientists-synthetic-lifeform-syn57

Images: Futurism.com

Chrysalis-spacecraft could someday travel on a one-way trip to Alpha Centauri.

Chrysalis-spacecraft could someday travel on a one-way trip to Alpha Centauri. 

"Chrysalis could house several generations until it enters Alpha Centauri, where it could shuttle people to the surface of the planet Proxima Centuri b. (Image credit: Giacomo Infelise, Veronica Magli, Guido Sbrogio', Nevenka Martinello and Federica Chiara Serpe​)" (ScitechDaily, Proposed spacecraft could carry up to 2,400 people on a one-way trip to the nearest star system, Alpha Centauri)

A spacecraft approximately 60 kilometers long, called “Chrysalis,” is a model of the generation ship that can transport human colonists to Alpha Centauri. The spacecraft is the winner of the competition to create a spacecraft that uses science-based technology and travels to Alpha Centauri. The spacecraft cannot use things. Like hyperdrive or WARP drive. The “Chrysalis” could take 1000-3000 space colonists on a one-way trip to Alpha Centauri. In that craft, generations will change before those colonists reach the Alpha Centauri system. 

If we think that somebody sends this type of spacecraft to us, and it arrives tomorrow, that hypothetical spacecraft would be sent during the 30 Years' War that was going on in Europe. The thing is that we would never meet those colonists after we sent them on that journey. The messages will travel between Alpha Centauri and Earth in four years. So the message travels between these two solar systems in 8 years.

 And then we must remember that when those people travel between stars, they become distant to us. In the same way, Earth will turn distant things into those colonists, or their descendants. When “Chrysalis” traveled hundreds of years, those colonists' descendants ever saw Earth. They might read about Earth from their databases. But they will never see Earth. And that’s why generation ship crews must not have any contact with the Earth because that eliminates the longing that causes psychological trauma and endangers the mission. So those crew members who will leave on that journey could be artificial, genetically engineered humans who have no parents. 

Those people might grow in the bases at Triton or Pluto, and they might never see Earth. The thing is that the “Chrysalis” project requires many things. And one of them is that our culture must change that way. That we could accept that mission. And those interstellar missions require complete preparation. There must be bases where those crew members can be born and grow. And the biggest thing. That we must remember is this. When that spacecraft leaves our solar system, we never get its crew back. There is a big difference between cases where some crew can die to cases where those people will not come back. 

The Tipler cylinder, or the Tipler time machine, can make it possible to travel to Alpha Centauri during a human lifetime. But we will not get that crew back. Time dilation in a spacecraft extends the crew's lifetime compared to the outside world. 

Theoretically, the Tipler cylinder is quite easy to make. The system can use a similar principle to that of an induction electric engine use. The cylinder is in the tube, and the magnetic field causes that cylinder  to spin very fast. The fact is that. The Tipler cylinder can also be the ion whirl that spins between two layers. But if the system uses physical cylinders. It must do something to the centripetal force that rips the cylinder into pieces. 

The answer to the centripetal force problem can be high-power magnets. In the middle of the cylinder that pulls the cylinder into its form. Another thing that can create negative energy is a low-energy particle beam. That binds energy into it. That system acts like a quantum thermal pump, and it can also be connected to the high-power magnet that is in the middle of the Tipler cylinder. 

The “Chrysalis” can transport people to Alpha Centauri if it can slow its time. That thing can happen by putting the spacecraft’s shell into spin very fast. That turns the spacecraft into the Tipler cylinder. The idea is that the cre module hovers freely in the fast-spinning tube. That spin can cause time dilation in that tube. The cylinder can have two layers that spin extremely fast.

Between those layers would be the ion layer that the system drives very fast in the cylinder’s rotational direction. The center module can hover in that cylinder or spin in the opposite direction with the same speed as the outer layer spins. The system can keep that tube in its form, pulling it to the middle of the structure using. The high-power magnets and low-energy Bose-Einstein condensate beams. That forms the situation where energy travels into the middle of the cylinder. The cylinder causes time dilation, and that increases the crew's lifetime. But anyway, those crews will never return. 

https://www.livescience.com/space/space-exploration/proposed-spacecraft-could-carry-up-to-2-400-people-on-a-one-way-trip-to-the-nearest-star-system-alpha-centauri

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

Smart dust: sensors are everywhere.

  Smart dust: sensors are everywhere. 

Intelligent dust, or smart dust, is a term that means. Small microchip-controlled sensors. These kinds of systems can simply be microchips. The intelligent dust is the entirety, where those microchips form a networked super-neurocomputer. The idea is that the large number of intelligent dust components mimics human neurons. That means intelligent dust can form a supercomputer, and that size is enormous. We can think about a situation. An automated factory will fly to the moon. And then that thing can form the nano-or intelligent dust. Those particles can communicate with each other. 

That thing makes it possible to create the ultimate supercomputer. That can run the complex AI algorithms.  These kinds of microchips can make many things. Those systems can take things like bugs under their control. And that thing gives them an ultimate ability to act as intelligent spy machines. Smart dust bite or microchip. That sits on the bigger computer microchips can transmit data to other microchips. That makes them an ultimate tool for intelligence officers. 

These smart dust  bites can also involve things. like nano-sized loudspeakers. Those systems can create acoustic effects around them. 

Smart dust refers to very small, nanotechnological systems that incorporate optical, acoustic, and seismic sensors. That kind of thing can look like a sand bite that size is less than a millimeter. In houses. Those sensors can follow the elements ' condition. They can observe things like humidity. If those sensors are on roads. They can measure the stress that structures face. Or those sensors can also find out how fast people drive on certain roads. The sensor must only identify the car that drives over a certain point. And then the system must know the distance to another sensor. And then it measures how fast the car travels between those two sensors. 

That is one way to use smart dust. Smart dust can get its energy from miniature silicone solar panels or so-called nano-pistons that rotate nano-size generators. Things like radio waves give the wireless ability to the system. To deliver energy to the intelligent dust. Intelligent dust can be the sensor group that is injected into human blood. The system can get energy straight from the nervous system. 

Smart dust can also control other nanotechnical tools and deliver information to them. That means the smart dust can be the basis for the most powerful systems that we can imagine. But in this text, the primary focus is on the small systems that cannot move themselves. The blood cells or genetically engineered, microchip-controlled immune cells can carry. And put those microchips into the right cells. Like in the nervous system. The idea is that the same blood cell that transfers nutrients to neurons. Can carry the miniature microchips to those cells. 

Those small sensors can be transported to tumors. And those systems can be used to call other nanomachines to that point. 

And basically. Those systems can replace the surgically implanted microchips that operate in the human brain. There are some visions that genetically engineered amoebas, or bacteria, can carry those dust-size sensors to the brain shell. Those systems can position themselves between the brain layers and transmit data from the brain’s inner structures. The system can harness energy from the neurons

The idea is that the artificial amoeba, a genetically engineered version of the natural amoeba that destroys brain tissue, will carry those small microchips into the brain.

Then those amoebas or bacteria will be destroyed by using the mRNA that orders those genetically engineered workhorses to die. Researchers must remove the DNA sequence. That makes bacteria or amoebae create their poisons. The idea in those systems is the same thing that helps those most dangerous parasites. To find their location. Will used to aim those microchip carriers into the right place in the human or animal’s neural system. 

That “dust” can communicate with the helmet-type receiver-transmitter. It can give information about how our nervous system works. But. It can act as a system that decodes human thoughts for the BCI systems. And maybe in the future. The BCI is the system that requires only an injection. Or some kind of pressure system can push those sensors through the skin. 

https://www.msn.com/en-us/money/other/smart-dust-is-turning-the-world-into-a-giant-sensor/ar-AA1K56Ue

https://www.science.org/content/article/smart-dust

New drones are a challenge for security.

  New drones are a challenge for security. 

Geran 3 drone

The new jet-engined Shahed drones called Geran-3 cause problems for Ukraine's air defense. That is one of the things that the Ukrainian war has taught us. The rapid development of the drone industry can render countermeasures that were useful and effective a couple of weeks ago ineffective in current situations. Things like optical fiber-controlled drones are hard targets for defenders. 

Those things are almost immune to the normal jamming systems. The EMP pulses that can destroy electronic components or laser systems that can cut the command fiber are tools that can affect those drones. But the use of the non-coherent EMP means that their own drones and other vehicles in the EMP area are also in danger. The laser system should detect the optical fiber before it cuts that fiber. 

And fiber-controlled drones can also be put in chains. That improves their attack range. The optic fibers would be pulled through another drone, and the drone can make a chain that is hard to detect or avoid. There is also a possibility that drone swarms are controlled by using laser communication. The laser drone can be a fiber-controlled system. And it can send laser pulses to other drones wirelessly. 

The laser-controlled drones have one problem. They require straight eye contact or a fiber that transfers the command signal. Regular lasers have one problem in drone control. Those lasers must be aimed. Using high accuracy. Blinking holograms can help with that problem. The optical communication is harder to jam. But the laser rays cannot travel through the smoke and fog. Those things also cover drones from defenders. 

 The Shahed-drones are now dropping anti-tank mines. But there is a possibility that the jet-engine-powered versions of those drones can also carry anti-tank weapons. Those anti-tank or anti-radiation missiles can increase those drones’ ability to cause damage. And another thing is that those drones can use those missiles against the power stations or radar installations. 

And they can also disturb the air defense. That is the problem with weapon development. The solutions that were effective against propeller-engine Shahed-136 drones are not effective against jet engine versions of those drones. The jet-engine drone can fly much higher than those propeller drones. The next step will be  AI-controlled drones that can operate independently. The drone will fly near its target using inertial navigation. Or it can use TERCOM, the AI follows the terrain area, and the system compiles that data with images. Those are stored in its memory. 

When the drone is close to its target, the system starts to search point, that it must destroy. The system uses photographs that are stored in its memory to detect the target. And then the system orders the drone to dive. And make a kamikaze attack. Basically. Those drones can use similar systems that Javelin uses to detect targets. Image-based target recognition can be used in all types of missiles and drones. 

https://www.armyrecognition.com/focus-analysis-conflicts/army/conflicts-in-the-world/russia-ukraine-war-2022/russias-jet-powered-shahed-238-drones-introduce-new-challenges-to-ukraines-air-defenses

https://www.twz.com/air/russian-mig-29-fitted-with-an-interceptor-drone-is-a-laughable-mess

https://www.twz.com/air/russias-shahed-long-range-drones-are-now-dropping-anti-tank-mines

https://en.wikipedia.org/wiki/HESA_Shahed_136

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

A paperclip-sized probe will research the edge of the black hole in the distant future.

  A paperclip-sized probe will research the edge of the black hole in the distant future. 

"Illustration of a gram-scale nanocraft journeying towards a black hole." (Rude Baguette)

Researchers plan to create a paperclip-sized probe whose purpose is to transmit information from the edge of the black hole event horizon. That probe will be sent to the black hole's material disk. And there it can use quantum technology like hovering quantum or nanoparticles to capture and send information from that area. The material disk will pump energy to those particles, and the observer can follow those oscillations from outside the material disk. 

One of the most fascinating versions of the data transmission from that ultimate high-energy area is to use superpositioned and entangled particle pairs. The material disk will pump energy to particle that is in it. And then another particle will receive information that the first particle sends. That probe will act basically without electronics. The system must only put a particle pair. Where another particle is in the lower energy level. To the superposition and entanglement. When the probe closes the black hole, its material disk will raise the particles' energy level in the probe, called Cosimo Bambi can transfer data to the receiver. 

The Cosimo Bambi can make this journey to 20-25 light-years away from Earth. But the problem is this. There are no known black holes in that distance. The mission will be completed in about 70 years. But that requires. There is a black hole in that distance. The closest known black hole is 1560 light-years from Earth. And that means the mission is doomed to fail if there is no black hole closer to Earth. 

The probe could use quantum technology and high-power lasers to travel near black holes. But there is one problem: the distance to the closest known black hole is enormous. There is possiblity that there is a black hole just 20-25. light-years away from the Earth. But there should be a confirmed black hole in that distance that the probe can reach it. 

The problem is always similar. The key problem is how to take this probe close enough to the black hole. The closest known black hole is about 1560 light-years away from Earth. That means the journey to that black hole takes a very long time. But the black hole probe gives interesting ideas for the futuristic quantum computers. 

Maybe this is possible in the future...

This keeps the transmitting side in quantum entanglement on a higher energy level than the receiving particle. These kinds of systems can also be used to create new types of quantum computers. The idea is that the transmitting sides of the quantum entanglements are at extremely high temperatures. And the receiving particle's energy level is as low as possible. If the system can use a black hole for that purpose, the quantum computer can put an artificial, or small primordial black hole, into the ball-sized chamber. Then the data will be driven to transmitter particles that are in the capsules. 

Then the quantum computer will send those capsules to the black hole. And the plasma around it keeps the transmitter-side particles in a higher energy level than the receiving particles. Maybe. This kind of system can operate using the regular, high-energy plasma. The idea is that the data will transfer to the transmitting particles that are in the capsule. The capsule that can be some kind of fullerene will act like a yoyo. 

The system will send it to the plasma. When plasma or some kind of EM field is around the capsule. And its energy level rises all the time. That helps to keep the transmitter side temperature in the quantum entanglement at a higher level. The temperature in the receiving particles can be as low as possible. That maximizes the time that the system can sustain quantum entanglement. 

https://www.rudebaguette.com/en/2025/08/one-gram-probe-to-black-hole-in-70-years-physicist-unveils-laser-driven-mission-to-test-einsteins-theory-in-deep-space/#google_vignette

https://scitechdaily.com/paperclip-sized-probe-could-take-us-to-the-edge-of-a-black-holes-event-horizon/

Neuralink microchips can eavesdrop on the neural system.

 Neuralink microchips can eavesdrop on the neural system. 

The Neuralink microchip is a tool. That can make paralyzed people live more fulfilling lives. Neuralin microchips are installed in the patient's brain. And they can be connected to the computers. That allows users to control the computer using their thoughts. That thing is a brain-computer interface (BCI). This connects the human brain straight to the net. That opens the path to control remote robots using EEG. Those systems' data security must be over the top. If those systems are hacked, the results can be devastating. 

That BCI interface allows a user to control the computers, mobile telephones, and all other electronics using that microchip. The computer is the key to controlling physical things. And that's why BCI is the key element to control physical tools. The idea of the BCI was introduced in the Graig Thomas novel "Firefox". In that novel and movie, the pilot controlled the super fighter's weapon systems using the BCI. 

The BCI system that allows the use of user interfaces using EEG is the tool that can make more than Graig Thomas's fictional system ever could. Firefox was written in 1977, and that means modern neuralink applications are bypassing that fiction. And the reality is turned more impressive than fiction. The AI and advanced data technology are turning fiction into fact. The AI-controlled microchips can transmit data to the brain. 

Darth Vader, a fictional character from the Star Wars movies, is one version of the human-robot hybrid. The BCI can make that thing possible. The bionic robot can be connected to the brain using the BCI. 

And that advances learning. The BCI system makes technical remote viewing possible. That happens by connecting those microchips to the surveillance cameras or robot bodies. The same system can allow people to transmit their sensorial data and other things to other people across the air. Those microchips have their ultimate risks. That risk is hacking. The AI-based systems can also use neuro-implanted mictochips to project a person's thoughts to the computer screen. 

The neuralink-type microchips that operate with Bluetooth allow the user to connect themselves. Straight into the internet using things like mobile telephones as sockets. The internet can make it possible for a person to transmit things like tastes, visual images, and the sense of touch over the net. 

The sense that the neuralink microchip transmits depends on the brain area where the chip is installed. That thing gives an ultimate experience that the brain cannot separate from personal experience. And that is the risk in those systems. Those microchips can also transmit things like other people's memories. Or maybe the AI can create synthetic memories that are the synthetic EEG curves. If those curves are sent to the right memory area in the brain. Our brain cannot separate those " synthetic memories" from real memories. 

The brain-implanted microchips are tools that can make things like a Darth Vader suit possible. Those microchips can control things like a bionic prosthesis. That thing means that the robot-human hybrids are possible. Brain-implanted microchips can make incredible things possible. But a technical advance can make it possible to use intelligent tattoos that are miniature microchips to communicate with the brain. Those very small microchips and antennas can give enough accuracy for the data transmission between the computer and neural structures. 

https://www.rudebaguette.com/en/2025/08/elon-musks-neuralink-launches-mind-control-chip-trials-in-uk-paralyzed-patients-become-human-guinea-pigs-in-this-shocking-experiment/

https://en.wikipedia.org/wiki/Brain%E2%80%93computer_interface

https://en.wikipedia.org/wiki/Firefox_(novel)

Information: the new tool.

    Information: the new tool. 

Information: the new tool. 

We are not in a crisis; we are in the middle of the fastest change in human history. AI and high-power information technology make it possible to connect all our devices and ourselves inside the singularity. In that singularity, the BCI, Brain computer interfaces, can connect us to the endless information flow. Brain-implanted microchips and AI are the ultimate pair, and in the wrong hands, they are among the most dangerous tools. That system allows us to see what we think and what we feel. 

That gives us the ultimate remote view if we can connect our brain-implanted microchips to surveillance cameras. The BCI is the tool that can destroy individualism. It can connect us to the artificial virtual world. And there are many risks. One of the risks is that the person can get lost in the multiple internal virtual worlds. In that vision, the person who uses the BCI can slip into cyberspace and then forget to come out. The virtual reality matrix is the thing. 

That involves multiple internal virtual reality spaces. And if a person uses BCI to enter that virtual space, they will not be able to separate virtual reality from real reality. The person forgets to drink and eat. When microchips give a signal straight to the brain. A person will not separate the data that they give from the data that natural sense gives to them. That means the person will not separate reality from virtual reality. 

The ultimate virtual reality with BCI systems can take us to eternity. That technology allows the transfer of data to people's brains. And this is the key to immortality. In that version of immortality, the person will be cloned, and all data that is stored in their brains will be transferred into the clone. That thing gives the possibility to "live forever". 

And that technology can open the road to interstellar flight. The journey takes about 250 years. Requires a new way to think about space exploration. And we must realize that if we make that journey to the other solar systems, we will never see that crew again.  This is one reason why it's so hard to create bases all around the solar system. Even if we had a nuclear engine, the journey to the outer planets takes years. And if there is some kind of problem, rescue will be impossible. One solution can be a space mission. Made by using AI-controlled robots. The spacecraft takes human-shaped, AI-controlled robots to the target, and the robots collect samples and other things. 

Time is the key problem in interstellar flight. The basic problem is that. The journey takes too long for human life. The "Project Hyperion" is one of the first serious attempts to map how humans can someday travel to the stars. The most common thing is the cryostatic ice where the astronauts will be put for the journey. The cryostatic ice, whose temperature is near 0K, will deny aging. When astronauts come near the other solar system, the system will wake them up. The cryostatic system allows the astronauts to fly for a long time. But the problem is that their friends and families will not see them again. And the cosmic radiation can still harm the DNA of those people. 

Cryotechnology, or cryogenics, gives the possibility to create a very slow time machine. The person can be put into liquid nitrogen. And then the system can wake that person up after 200 years. That is one version of time travel. 

But there are people on Earth who want to freeze themselves into cryostatic ice. The idea is that those people believe. That one day in the future, technology will allow them to wake up. So, they wait in the cryostatic chamber where medical experts create methods to heal their sickness. So, maybe someday in the future, those people will walk on the Earth again. 

But if we think about biotechnology, artificial cells, and viruses. We can see another way to reach immortality. In that case, the nanotechnology replaces damaged DNA with fresh DNA. The nanotechnology creates new DNA and then destroys the old DNA from the cells. And puts that new DNA into mitochondria and the nucleus. This methodology requires a large number of nanomachines, but it's possible to create a nanomachine swarm that can make this thing. 

Researchers can store people in the form of DNA. The DNA can be stored in digital form. And nanomachines will assemble those DNA bits into the new entirety.  Or it can be stored in an extremely static environment. The system just injects that DNA into the cells and grows a clone of the person. And after that, the BCI system can transfer memories of the person to that clone. That requires that those memories be stored somewhere. The system can use artificial cells to transfer memories to the clone. Memories are stored in the DNA, and then the artificial cell can transfer them to the nervous system by using electric impulses and neurotransmitters. 

https://www.projecthyperion.org/

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

https://thatsthenatureoftime.blogspot.com/

Quantum microchips and photonic interactions.

"Artistic representation of metasurface quantum graphs. Credit: Joshua Mornhinweg" (ScitechDaily, Harvard Just Collapsed a Quantum Computer Onto a Chip)

Harvard scientists built a quantum computer on a chip. And that drives advances to the room- or table-sized quantum computers and quantum networks. This kind of system can also make the quantum internet, at least in the short range, possible. But long-distance wireless quantum communication requires new tools like photonics. Some researchers say that the future is in photonic microchips. That means the light acts as a data transporter. Those systems will use less energy than electric microchips.  But that thing requires new systems like optical gates. Today, researchers can make photonic microchips, but those systems are large-scale, and their mirrors and light cutters require AI-based systems that can control those light-based components. 

The main problem is how to make effective photonic versions of the electric components. And especially the photonic gates and switches are hard to make. The reason for that is that leaders will heat the physical iris. And controlling that system is not as effective as it should be. Data travels differently in those microchips. Theoretically, the system can use two frequencies or colors. The green can be one, and red can be zero. The system inputs serial numbers to those photonic bits so that the system can sort them into the right order. But the control system is very complicated. 

"Light can scatter off light, revealing ghostly particles and clues to cracking the universe’s fundamental laws. Credit: SciTechDaily.com" (ScitechDaily, Light Versus Light: The Secret Physics Battle That Could Rewrite the Rules)

Photonic interactions can solve many problems in quantum networks. If we think of a system that shoots a thin light wave or light quantum through the photon, that system can make the new quantum internet possible. The system downloads data to the particle from the photon, and then that data travels to that wave. For working perfectly, that system requires very accurate ways to control photons and their interactions. The photonic systems that are in the photonic interactions, where light scatters light to make possible things like optical gates. The photonic gate means a system where another lightwave or photon cuts the route of the lightwave. The system can also adjust the energy level of the light wave or adjust the lightwave’s wavelength. 

The photonic system that scatters light allows the cone that protects microchips and sensitive components against outgoing radiation. That system makes lightwaves travel past the layer. It would deny electromagnetic waves from reaching the shell of the system. The photonic interaction or scattering effect can make it possible to create new types of stealth systems. The idea is that the light or photons form a needle that scatters lightwaves past the object. If that scattered light can aim electromagnetic radiation to reach and reflect from the surface or aims reflection out from the observer, that thing makes the object itself invisible. There can be standing waves at the crossing point of the scattered waves. So the observer would see the lights in those points. 

https://scitechdaily.com/harvard-just-collapsed-a-quantum-computer-onto-a-chip/

https://scitechdaily.com/light-versus-light-the-secret-physics-battle-that-could-rewrite-the-rules/