A big country of aerospace with black technology

After being exposed to powerful microwaves, not even a single cell in the strata hundreds of meters deep will survive.

within the next few decades.

Not even a single blade of grass can grow on this land, making it a barren land in the true sense.

Because the various bacteria in the soil that help plants decompose nutrients all die under microwave irradiation.

It's like the land being steamed by water vapor.

For details, please refer to some ancient chidaos, which were made by pressing steamed loess.

Not a blade of grass has grown for thousands of years.

A very small number of extremely thermophilic bacteria can withstand ultrahigh temperatures.

The long fatty chain lipids in the liquid crystal state inside are constantly decomposed under the action of heat accumulation.

These masters evolved from the harsh living environment of the Hadean Era to survive in high temperature and high pH environments.

It is also difficult to survive to the end.

"The circuits inside electronic equipment are basically in a molten state."

The experimenter in charge of the inspection work afterwards said as he pried open the equipment inside the armored vehicle.

"Although there is no damage on the outside, the internal circuitry is completely destroyed."

The space-based microwave strike only lasted a few minutes.

These expensive heavy equipment were destroyed.

Actually, it's not just electronic devices.

High-power microwaves also caused unimaginable damage to the metal armor plate lattice.

These armored vehicles, even with the replacement of electronic equipment, returned to the battlefield.

The protection intensity will also see a large-scale decline.

"The infrared reaction of the strike field is very strong. Won't it attract special attention from others?"

In the command center, Geng Bo asked, looking at the dark, burnt trees at the attack site.

Every major military country has deployed its own infrared reconnaissance satellites in space.

It is mainly used to monitor intercontinental ballistic missiles and other large-scale killer weapons launched by other countries.

When the satellite discovers a special heat source reaction, it will transmit the corresponding heat source characteristics to the supercomputer on the ground.

The supercomputer then models the missile data based on past detections.

to determine if this is a missile.

And what type of missile this is.

Different types of missiles will have different heat source information characteristics due to different engines.

In human eyes, these characteristics are almost indistinguishable.

But in the eyes of a high-sensitivity thermal camera, it is very obvious.

"Won't."

Zhang Xingyang shook his head and said:

"Infrared reconnaissance satellites can detect local heat source information."

"But it's hard to find a specific reason."

"From the infrared images, the computer system will only think that there was a small fire in the area."

Infrared reconnaissance satellites are designed to detect all types of missile attacks.

Of course, there are also some infrared reconnaissance satellites that are used for civilian purposes.

It will be used to detect situations such as forest fires.

The infrared response of missiles is actually completely different from the infrared response of wildfires.

Specifically, a missile is like a hot spark, and a fire is more like a basin of scalding foot-washing water.

For infrared reconnaissance satellites.

Such fires can be found many times in different places every day.

So this information won't even trigger an alert in the first place.

The information falls short of the alarm thresholds designers designed for the satellites.

"It seems that microwave attacks are simply impossible to guard against."

Geng Bo said with some emotion.

Microwave attacks have no obvious characteristics when launched.

It has neither the radar signature nor the infrared signature of traditional artillery and missile strikes.

The radar itself emits electromagnetic waves and then receives electromagnetic waves to complete the detection of the target.

The attack method of microwave strike cannot be detected through electromagnetic waves.

And want to discover microwave strikes through infrared characteristics.

Then you need to wait for its attack to take effect before you can discover it.

By then the blow had been completed.

Even if it can be discovered, it has lost its meaning.

"Although microwaves can penetrate many kinds of materials, there are still materials that they cannot penetrate."

Zhang Xingyang said after thinking of some of the cutting-edge research content of later generations.

"For example, metallic hydrogen."

Metallic hydrogen is a very special form of hydrogen.

At millions of atmospheres, hydrogen assumes a metallic state.

The hydrogen molecules become individual atoms and the hydrogen's chemical bonds are broken.

The electrons outside the nucleus of the original atom are transformed into a common state.

The free flow of these electrons gives metallic hydrogen its superconducting properties.

The close arrangement of atoms also allows metallic hydrogen to defend against high-energy ray attacks.

Considerable testing of metallic hydrogen defenses has been carried out in later generations.

In extreme testing experiments, a small metallic hydrogen protective layer even protected against supernova explosion-level ray attacks.

It is also the large-scale preparation of this material.

Only then did humans truly have the ability to withstand cosmic-level natural disasters.

Eta Carinae, which is only 7,500 light-years away from the solar system where humans live, is considered to be a star that is very likely to explode as a supernova within nearly 10,000 years.

It has 150 solar masses.

After the explosion, crazy gamma rays can sweep through all star systems tens of thousands of light-years around it.

In these star systems, patches of Jedi were created.

Perhaps the sprouts of intelligent life have already appeared within these star systems.

Intelligent species may even have evolved to use simple tools.

But the gamma rays from supernova explosions will tear apart the molecules that make up these intelligent life forms.

Because gamma ray bursts travel at the speed of light.

These intelligent species will not be aware of anything until they arrive.

The process of death only takes a moment and will not cause any pain.

For humans who have not yet applied metallic hydrogen materials on a large scale.

If we encounter such a cosmic level natural disaster.

There will be no way to fight back.

There is no difference between mammals and mammals tens of millions of years ago when a annihilating asteroid struck the earth and wiped out the dinosaurs.

"Metallic hydrogen, isn't that a legendary material?"

Geng Bo's understanding of materials science is relatively shallow, but he has also heard of metallic hydrogen.

It has extremely strong energy density, and its explosive power can be forty times that of TNT.

In the past, it was regarded as a possible new generation of rocket propellant.

However, it is limited by the slow development of high-voltage equipment.

The actual preparation of metallic hydrogen has never been completed.

Although every year there are laboratories claiming to have prepared real metallic hydrogen.

But most of them are fake.

The few metallic hydrogens that are actually produced are difficult to store.

Therefore, the research on metallic hydrogen still remains at the theoretical level.

Its specific situation is still a mystery to everyone.

"Our country has just completed the 1.8 million times atmospheric pressure high-pressure laboratory, which already has the conditions to complete the laboratory preparation of metallic hydrogen."

Zhang Xingyang learned more information and explained:

"So for us, the preparation of metallic hydrogen is no longer a dream."

Geng Bo said with some surprise: "Then the microwave attack will be defended soon?"

"not that simple."

Zhang Xingyang shook his head,

“The preliminary preparation price of metallic hydrogen is far higher than that of gold.”

In the era before electrolytic aluminum, the price of aluminum far exceeded that of gold.

Aluminum helmets, tableware, etc. prepared using chemical methods were much more expensive than gold at that time.

Only decades later, after the invention of electrolytic aluminum, did the price of aluminum plummet.

The same is true for today's metallic hydrogen.

In high-pressure laboratories, the amount of metallic hydrogen that can be produced is only measured in grams each time.

This kind of metallic hydrogen production can't be used as a defensive plate.

Even doing research is too small.

Unless humans can complete the pressure structure in Zhang Xingyang's memory.

On the planet, vertical channels hundreds of kilometers long are dug.

Hydrogen is introduced at the bottom, and hundreds of millions of tons of water are in the upper part.

Under strong water pressure, hydrogen gas will be directly compressed into metallic hydrogen.

"At least within a hundred years, it is unlikely that there will be a means to defend against microwave attacks."

Zhang Xingyang concluded.

In fact, there will be more extreme inventions in later generations for highly dense materials such as metallic hydrogen.

That's the proton lattice.

Within metallic hydrogen, the hydrogen atoms are closely arranged next to each other.

The proton lattice consists of protons arranged closely together.

Its defense power is even more amazing, and it can even maintain itself near many extreme stars.

However, proton lattice will also be considered a very high-end material in later generations.

The annual output is very low, and most of it is used in extrastellar detectors.

The future solar system will be too small to accommodate human beings' growing ambitions.

"Get ready for the next round of microwave anti-aircraft weapons experiments."

Zhang Xingyang didn't say anything more.

In addition to being used as a strike weapon, microwaves can also be used as a defensive weapon.

Especially anti-aircraft weapons.

Because it has a wide range of action, the accuracy requirements are not as high as laser weapons.

Especially for modern stealth fighters.

Microwaves have unparalleled advantages.

Because the stealth performance of stealth fighters comes from the absorbing materials on the surface of the aircraft.

These absorbing materials will absorb the electromagnetic waves emitted by radar.

This achieves the effect of being invisible to radar.

These absorbing materials can also absorb microwaves.

Microwaves will quickly heat the fighter shells and heat their aviation aluminum materials to a molten state.

Even if there is no large-scale body deformation, small-scale deformation is enough to change the aerodynamics of the fighter jet.

This caused an aviation accident that could be called a disaster!

Somewhere, a drone aviation brigade.

As a newly formed aviation group, they are very special.

None of them were pilots in the conventional sense; they had never taken to the skies.

But each of them drives several fighter jets and soars in the blue sky every day.

The UAV aviation brigade was newly formed after the development of stealth unmanned fighter jets and stealth unmanned bombers.

Therefore, they adopted many novel fighting methods.

Because UAVs are capable of higher overloads.

The highest overload that humans can withstand is no more than 12 G.

However, as long as the drone does not exceed its body strength limit, it can perform high-intensity and high-overload maneuvers.

In addition, drones can also carry out suicide attacks, suicide induction and other behaviors.

These are almost unimaginable in the era of manned fighter jets.

"Our superiors asked us to carry out a devastating bombing of the place."

The aviation group commander pointed on the electronic map and said.

"Is there any indication of what type of confrontation it will be?"

the combatants in the aviation group asked.

Because no one in the UAV Aviation Group actually flies into the sky, they are not called pilots.

But a combatant.

Their entire mission is to win the battle for themselves at all costs.

"I didn't say it clearly, but my superiors told us to prepare for heavy losses."

The commander frowned, looked at the electronic map and whispered:

"What kind of confrontation will it be?"

The UAV brigade's daily performances involve a large amount of equipment losses.

A conventional confrontation exercise requires hundreds of missiles of various types and dozens of advanced stealth fighters and stealth bombers.

"No matter what kind of confrontation it is, we must use all our strength."

The commander finally issued the order:

"Follow plan No. 1 to prepare for war."

Plan No. 1 is actually to go all out.

All fighters will be fully loaded, and all bombers will be fully loaded with missiles.

It's two thirty in the morning, when the stars are shining.

A huge fleet of aircraft was gliding on the airport runway, preparing to take off.

Dozens of combatants were lying quietly in the combat cabin.

The holographic helmet allows them to command five stealth fighters at the same time.

The combat cabin, which looks like a future holographic game cabin, is equipped with numerous health testing equipment.

This ensures that even if a fighter jet is hit from a first-person perspective, it will not have a significant impact on the physical and mental health of the combatants.

Hundreds of stealth fighter jets are arranged in a dense formation that is impossible for manned fighter jets.

The distance between each fighter jet is only a few dozen centimeters.

Even if there are pilots who can do such meticulous operations.

No commander dared to let them do this.

A little carelessness can lead to the destruction of the machine and the death of people.

Only the drone aviation brigade, which doesn't care about losses, dares to do this.

But precisely because of this, the ground air defense radar did not detect the huge fleet of hundreds of fighter jets at the first time.

Wait until the stealth bomber drops the first air-to-surface missile.

Only then did ground radar discover this fleet of stealth fighters and bombers.

The radar was destroyed by anti-radiation missiles at the first opportunity.

In the communication channel of the aviation group, it is believed that there is no possibility that the ground will threaten the air.

So dozens of stealth bombers began to lower their altitude.

Prepare to get close to the ground and bomb the designated target area.

Although bombing missions can also be completed at high altitudes, the bombing effect is definitely not as good as low-altitude bombing.

However, the combatants who had just lowered the altitude of the bomber.

It was soon discovered that the sensors on the bomber kept sending high temperature warnings.

And the internal equipment is also alarming frantically.

The sound of beeping one after another blasted in the ears.

Before the combatants could react, the bomber tilted and spun toward the ground like a kite with its string broken.

At the same time, the stealth fighter jets at high altitude began to sound alarms continuously.

A fleet of hundreds of stealth fighters began to burst into brilliant fireworks on the ground!

Compared with the New Year’s fireworks, they are even taller and more gorgeous!