Behind the scenes technology company

Chapter 45 Interstellar Ambition (Please recommend and collect)

The sky above people's heads, the galaxy that can be observed, the boundless space full of unknowns, and the information of the grand universe at the tip of the iceberg displayed by the "system" have always inspired Wei Lai.Aerospace science and technology brings together the efforts of generations and the dreams of all mankind. Our pursuit of space has never stopped.

Normal-temperature superconducting alloys have brought a new foundation to aerospace technology, and the most important impact is the same as that in the military field, the problem of energy loss.

High-power, low-loss or even non-destructive alloys mean more abundant energy and stronger equipment.The experimental device that is still in the semi-finished product still needs further research and development.

From the three aspects of energy propulsion, space communication detection and aviation metrology, let's take a look at the changes brought about by the new room temperature superconducting alloy, and the experimental application of these unfinished "semi-finished products".

I won’t repeat the importance of energy. Superconducting superconducting alloys at room temperature can improve the two major directions of current research in the world, superconducting space batteries and superconducting boosted launches.

In fact, the application of superconductors in aerospace has been proposed as early as [-]s. Superconducting space batteries and booster launch are also continuously applied in the field of aerospace. Superconductivity is not a new thing.People use liquid nitrogen cooling to maintain the superconducting state of the material to achieve the utilization of superconducting state characteristics.

However, harsh usage conditions, temperature cooling and maintenance of superconducting state have always been difficulties in the development of superconducting technology.The emergence of room-temperature superconducting alloys quickly lit up the technology tree of superconducting technology.Superconducting batteries, charged by solar panels, and internal zero-loss internal circulation of the internal coil structure will greatly improve satellite performance and functionality.

Not to mention the propulsion aspect, the reduction in liquid nitrogen consumption, coupled with the magnetic separation fuel preparation technology with complete diamagnetic properties, makes the rocket performance even more powerful.There will be different changes in the size and structure of the spacecraft.It can be said that energy storage and propulsion have room to play in all areas of the aerospace industry.

In terms of communication, long distances bring inevitable problems, communication delays and even communication interruptions.Especially in space exploration, the transmission and reception delay of equipment has always been one of the research and solution directions for scientists.The use of superconducting strong magnetic fields to exert additional restraints on electrons completely solves the problem of communication interruption.

In aerospace engineering, the application of superconducting antennas has been further optimized. The high power that has been emphasized represents the enhancement of radiation efficiency. The superconducting antenna at the receiving end can reduce signal noise, and has excellent performance in signal transmission and reception. In terms of military and aerospace, it is not an exaggeration to use super radar to describe new applications.

The application of aviation metrology is more direct, and superconducting computer is a part of aviation metrology.Superconducting gyroscopes are indispensable instruments for space positioning of missiles and satellites, and require high capital and low drift rates for gyroscopes.

The superconducting gyroscope has the characteristics of stability, reliability, high precision and low drift.Magnetic levitation is achieved through complete diamagnetism, and high-speed operation is realized under the condition of completely non-contact friction.

Material breakthroughs have always been comprehensive, with the key impact being cost savings.This is relative to today's more complex superconducting technology.

There are also countless stories about the development of space technology, from Gagarin’s first manned space flight on the Vostok 1961 spacecraft in 1; in 1969, “Apollo 11” Armstrong successfully set foot on the moon; Time, the rapid development of the aviation industry shocked everyone.

However, the prospect of space travel still requires a down-to-earth step-by-step development. Materials, energy, communication, and a completely different living environment have brought heavy shackles to interstellar exploration. Space technology is still like a child, absorbing nutrition and learning knowledge. .

The emergence of new materials requires the upgrading of cutting-edge experimental equipment. Room-temperature superconducting alloys have quantum properties, and the tokamak experimental device is the first application target of superconducting alloys.This conceived device for realizing controllable nuclear fusion proposed by the tokamak in 1955 uses the complete diamagnetism of superconductors to realize magnetic confinement in the true sense, which has great research value.

Cutting-edge experiments are inseparable from large-scale experimental devices. More superconducting observation equipment has entered the design stage. Another large-scale device, the particle accelerator, which is as famous as the tokamak device, is also the priority target for superconducting alloy equipment upgrades.

In the laboratory, the application of the superconducting state has already been realized, but the stable maintenance of the superconducting state has always been a problem that plagues more experiments. The properties at room temperature mean more convenient operation and low cost savings.

Along with space technology, Wei Lai and his behind-the-scenes technology company have grown together.Down-to-earth technology research and development and application are the most important tasks today.Room-temperature superconducting alloys only bring forward the times and more possibilities. Specific work still requires a lot of manpower and material resources to complete.

Wei Lai's underground studio, compared to research centers and national applications, after learning the lessons from last time, Wei Lai carefully carried out superconductivity.

The combination of more sophisticated manufacturing technology and superconducting technology, and the automatic obstacle avoidance of the "sensory" system have completely upgraded the "construction robot" in all directions. With the help of the characteristics of superconducting alloys and the magnetic levitation effect, it is even more direct It has been strengthened in terms of power and silence. After dismantling and modifying, the humanoid robot with an empty body stands quietly in the laboratory.

"The only thing missing now is artificial intelligence. Only with real artificial intelligence can a robot be considered a complete robot. The development of superconducting chips is the key point. Stronger computing power support is a step closer to robots."

The development speed of superconducting chips will be very fast. The mature application and development of the semiconductor industry has restricted the research and development of superconducting materials to a certain extent. However, when superconducting materials are truly put in front of everyone, the former semiconductor industry will It became the superconductor industry for a while.

The dream of space is realized step by step. Before humans have conquered the earth and stars, more of today's "space technology" will still be applied to the earth and stars to expand the human living space, sky and ocean.With the rapid development of science and technology, today's "space technology" will also become the future "ordinary technology".

In 2028, semi-finished products are still waiting quietly in the laboratory, space is beckoning to us, and more cruel competition is coming.The era of global business competition has arrived. With the rapid proliferation of cutting-edge technologies, the power of capital has once again opened its mouth, and a new round of technological competition has begun.

This is truly in line with the technology of the international community. Superconducting technology has become the world's top technological pearl. Huaxia and the Western world have once again entered the same starting line. The huge influence is first reflected in the semiconductor industry, starting with chips.

(End of this chapter)