The ability to see the system makes it possible to control it.

"Michigan State University combined terahertz laser light, shown as a red wavy arrow, with a scanning tunneling microscope, or STM, tip — the dark pyramid shape exchanging a red electron with a sample shown with a blue surface. Credit: Eve Ammerman" (ScitechDaily, Laser Precision Unveils Semiconductor Secrets of Single Atoms)

The new version of the scanning tunneling microscope can scan internal atomic structures. The system uses trapped electrons that hover above the layer. The laser sends impulses to that electron. In that process, the electron releases its extra energy as impulses. The system can observe those impulses. The system observes reflection. And that makes the system use that electron as a scanner or radar that can see extremely small details. 

"Kyushu University researchers introduced QDyeFinder, an AI tool that enhances neuron mapping in the brain by using advanced color-coding and machine-learning, showing potential for broader applications in biology." (ScitechDaily, AI Super-Human Eye Brings Scientists One Step Closer to Understanding the Most Complicated and Mysterious Dimension of Our Existence)

"That kind of system can make it possible to create new and small-size data storage. When we think about magnetic data storage with cell structure, that kind of system can make it possible to create new types of quantum data storage and quantum data transportation. In the first step, the system must share data with different data transportation channels. In that system, the memory with cell structure is one of the most promising things." (ScitechDaily, Revolutionizing Magnetism: Polarized Light Unlocks Ultrafast Data Storage and Spintronics)

Because the system can switch a single atom's state in semiconductors, it is possible to create nano-technology-based switches and routers. That can make new nano-size microchips into reality. The ultra-fast memory makes the new and powerful AI-based super eyes possible. Those super eyes' mission is to see what happens in human brains. 

But the same super eyes and their programs can also be with scanning tunneling microscopes. That means those AI systems can also operate in material research. The AI super eyes can see complex structures and control the manufacturing process. The AI super eye requires fast-reacting memory. If it observes and controls the multiple fast-reacting structures. 

"University of Missouri researchers have developed a novel 3D printing method that allows the creation of complex multi-material devices in a single process, streamlining manufacturing and enhancing environmental sustainability. Credit: Sam O’Keefe" (ScitechDaily, New Multi-Material “Laser” 3D Printer Can Create Complex Devices With Just a Single Machine)

"The research, which was recently published in Nature Communications, outlines a novel 3D printing and laser process to manufacture multi-material, multi-layered sensors, circuit boards, and even textiles with electronic components." (ScitechDaily, New Multi-Material “Laser” 3D Printer Can Create Complex Devices With Just a Single Machine)

"It’s called the Freeform Multi-material Assembly Process, and it promises to revolutionize the fabrication of new products." (ScitechDaily, New Multi-Material “Laser” 3D Printer Can Create Complex Devices With Just a Single Machine)

"By printing sensors embedded within a structure, the machine can make things that can sense environmental conditions, including temperature and pressure. For other researchers, that could mean having a natural-looking object such as a rock or seashell that could measure the movement of ocean water. For the public, applications could include wearable devices that monitor blood pressure and other vital signs." (ScitechDaily, New Multi-Material “Laser” 3D Printer Can Create Complex Devices With Just a Single Machine)

The new 3D printing systems are a new example of the systems that can create complex machines using the same systems. The new laser-operating 3D printing systems use AI-based super eyes and interactive AI to make perfect structures. 

The AI-controlled 3D printers are new and innovative tools for the metal and high-tech industry. They can also make revolution in space and military tools. The ability to create customized spare parts and things like quadcopters on the field is a thing. That can make the next step for space probes and military forces, which can make things like machine parts and even assault rifles in operational areas. 

https://scitechdaily.com/ai-super-human-eye-brings-scientists-one-step-closer-to-understanding-the-most-complicated-and-mysterious-dimension-of-our-existence/

https://scitechdaily.com/laser-precision-unveils-semiconductor-secrets-of-single-atoms/

https://scitechdaily.com/new-multi-material-laser-3d-printer-can-create-complex-devices-with-just-a-single-machine/

https://scitechdaily.com/revolutionizing-magnetism-polarized-light-unlocks-ultrafast-data-storage-and-spintronics/