Writings about astronomy and technology.

AI challenging us. People say that the AI made things. Better than their students. Why do people ever say that their human students are impressive? Why do they almost ever say how surprisingly wonderful work their students make?  Why does only AI get very big salutes for its work? Why do people praise things like Chat GPT? There are people behind those things. Why does nobody mention the people who created the large language models, LLMs? Why does nobody praise human students when they do some interesting things?  When we let AI make our texts we face things, that we let the AI think for us. We make things that we let AI think and make decisions for us. And that means we let AI control our lives.  That means that we might misunderstand the AI's role in society. We think that because AI makes fever mistakes than we do, we can let generative AI make jobs that our boss or teacher gave to us. That means our mind turns mechanical.  We just ask things from Chat GPT or some other LLM, and

"This still from the simulation shows a supermassive black hole, or quasar, surrounded by a swirling disk of material called an accretion disk. Credit: Caltech/Phil Hopkins group" (ScitechDaily, Caltech Astrophysicists Flip Black Hole Theories With Stunning New Simulations) We can say that black holes' oscillation makes them raise the gravitational fields or gravitational waves' energy exponentially. Just like photonic time crystals raise electromagnetic radiation's energy level.  Why are black holes black? One reason for that is the gravity field that doesn't let even light away from the black hole. The other thing is the photon whirls around the event horizon. Those high-energy photons send energy mostly into the black hole.  There. They could accelerate at such a high speed that they could escape from that monster. That theorem base is on the idea. The laser light can push light away from its route and form a shadow. That means photons around a black hole a

In this text, I write about neutron stars. But you can replace the word neutron stars using black holes. The idea of gravity could be that gravity or gravitation forms when a spinning object stores kinetic energy in its material structure. And then it conducts that energy into the center of that structure.  Then that energy travels out from the spin axle. That means that gravity or gravitation is the force with field effect. That field effect means that gravity is a field that travels in the gravity center. That field is like a river that takes particles into it. The fact is that. All gravitational objects spin or move. They all have poles.  The other thing is that. What if the planet is locked? The nucleus of the locked planet spins. And the shadow side puls energy out from that planet.  Could spin be the thing that causes gravitation or gravity? When we think about very fast-spinning extremely heavy objects like neutron stars those things can explain the special features of gravity.

The black hole interacts with its environment. It transforms other energy forms into gravity waves. But could that thing form dark energy? Black holes include extremely dense material. And very high-power gravity field. When we think that a black hole transforms energy that falls into it into kinetic energy. We must realize that material doesn't form energy. From nothing. It just transforms energy into another form.  The term kinetic energy means a situation where the particle that travels in the energy field binds energy into itself The thing that makes that possible is that there is an electromagnetic channel behind the particle that pulls energy against it.  The particle ties part of that energy into itself. When the speed of a particle slows it releases its energy as an energy wave. But before a particle can release an energy wave its energy level must rise higher than its environment. The wavelength. That wave movement has. Is the same as the size of the particles that send th

"Georgia Tech researchers developed lab-grown models of human immune systems, called immune organoids, to study immune function in cancer patients and improve vaccine development. These synthetic hydrogels mimic immune environments, enabling precise studies of immune vulnerabilities, particularly in lymphoma survivors, and fostering innovative treatments." (ScitechDaily, Miniature Lab-Grown Immune Systems Could Transform Cancer Treatment Research) Fighting against things like cancer is quite an easy thing, theoretically. The problem is how to detect those cells in the human body. In the cases where the immune system's stem cells cause cancer is possible to destroy the bone marrow from bones.  Then the cleaned bone marrow will be injected back into the human body. The problem is how to destroy the cancer genomes from the stem cells. One of the possibilities is to detect cancer genomes from the DNA and then remove those base pairs. And then. It can inject that cleaned DNA b

 Photonic time crystals and lasers can be the tools for new types of photonic computers and next-generation photonic technology. "“This work could lead to the first experimental realization of photonic time crystals, propelling them into practical applications and potentially transforming industries,” says Professor Viktar Asadchy from Aalto University, Finland. Credit: Xuchen Wang / Aalto University" (ScitechDaily, Scientists Create Photonic Time Crystals That Amplify Light Exponentially) Time crystals are materials that oscillate at a certain frequency. That oscillation pumps energy to light. Another thing. This time-based oscillation can make. Is to make photons jump between the walls of that time crystals. The oscillation sends wave movement into that jumping light or photons. Another way to increase the power of that jumping light is to make outcoming radiation increase its power.  "Scientists created photonic time crystals, unique materials that amplify light and c