Anna admires Osborne's attitude and can put down her head to be an ordinary Seiko worker.

This is the attitude required in the pursuit of science, and she felt that if Osborne was willing to recognize her as a big brother, she could teach Osborne...

Asian squat.

……………………

In the high-energy physics laboratory, Anna with a small face put on protective goggles and stared at the screen, and in front of her, there was a high-precision oscilloscope. Rotate the energy regulator, coarse and fine.

As Anna's chubby hand rotated, the waveform on the oscilloscope gradually shrunk and shrunk, and finally shrunk into a single ray - a pulse.

Behind the oscilloscope, there is a laser transmitter sealed in a lead box with each baffle more than 30 mm thick.

The laser transmitter originally emitted a laser beam pulse, which emits 1 kWh of energy in about 1 second.

Not enough, Anna also had to adjust the pulse duration, constantly adjusting.

0.5 seconds, 0.2 seconds, 0.1 seconds, 0.01 seconds...... Until 0.0001 seconds, an extremely powerful laser beam was released from the lead box, and the instantaneous brightness even reached a trillion times that of the sun.

It's done!

The Geiger counter beeps an alarm, and no matter how loud it is, it will be out of the range of the Geiger counter.

Modified from four 20-kilowatt laser transmitters, Anna's version of Super Gamma Ray succeeded.

The instantaneous energy emitted is 10 times that of the original laser transmitter, with ultra-high energy density and super penetration ability.

This effect, when compared to a machine gun, is equivalent to the difference between a 40-meter long knife and a 0.10-meter dagger.

Eliminate enemies on the opposite side from five rooms.

Extremely lethal.

Even Anna's chubby hand can't hold it, and the gamma ray emitter she made is the smallest in the modern world, but it still requires a 1.5-ton forklift to move it.

It's good that Anna didn't use it to kill,

Looking at the spider robot still bouncing in the safe box, the little short legs showed a dangerous look.

Anna waited for a long time in the high-energy physics laboratory, and Osborne came over there.

Looking at the way he frowned, it seemed that he had encountered some serious problem.

Sure enough, Osborne handed over a large stack of reports, really a stack.

Osborne hit a single sample 35 times in a frenzy.

"It's different every time."

Osborne said that in his more than 30 years of life, he had never encountered such a strange situation, anisotropic metal.

Yes, it looks like a metal, and most of the components are aluminum, mixed with a small amount of carbon elements, and trace elements such as manganese and silicon are measured.

Each time the proofing is made, the content of each element is different.

At one point, the carbon element even exceeded 50%.

Anna frowned too, no metal would cause this, unless...

"You try a longitudinal proof."

"You mean it's composite?"

Norman Osborne is also a graduate of Binghamton University of the State University of New York and belongs to the most prestigious universities in the State University of New York system, and as soon as Anna said it, Norman Osborne understood what she meant.

The results came out quickly, and one of the main components was aluminum, one was carbon, and one was silicon.

The result is obvious: it is a composite material with aluminum as the matrix.

But Osborne swore by his ancestors eighteen generations that he had never seen such a complex composite material in his life.

Neither did Anna, so she had to do a metallographic analysis.

A piece of metal was taken, cut, ground and polished, and finally embedded on a graphite matrix, and then the inlay block was microscoped at high magnification.

The metallographic analysis software automatically analyzes the crystal structure of the metal.

"What is this?" Norman Osborne stared at the screen, and an extremely regular structure appeared in front of him, with the bottom layer of tubes arranged in parallel. On the pipe, there is a layered structure layer after layer, and on the layered structure, another layer of pipes, the pipes of the upper layer and the pipes of the next layer are staggered, and the middle is filled with an aluminum matrix.

As a result, the tube, the layered structure, and the aluminum matrix together form an extremely regular layered structure.

Looks... Like reinforced concrete.

It's still at the micro level, at the micro and nano level.

Anna didn't even need to take any further tests, she basically estimated how the material was made.

The tubes are carbon nanotubes, the layered structure is graphene layers, and the aluminum matrix should be 8 series aluminum different from the existing aluminum.

Each of the basic monomers in composite materials is a high-performance material in the modern world, let alone the fusion of three high-performance materials into one.

As for the purpose of each structure, Anna can also guess.

Carbon nanotubes do work like steel bar, graphene layering is more like hollow slabs, and aluminum matrix is concrete.

Just such a small piece of metal, there are at least ten kinds of black technology contained in it.

This is not at all a composite material that can be produced by modern technology.

It's the technology of the future.

Little Shortleg was curious about who that crazy woman from Polaris was messing with.

Or maybe the X-Men in the parallel universe got into trouble.

And how much hatred and resentment that powerful person has with the X-Men.

Everyone came to chase and kill across dimensions.

Just such a metal block is fifty years ahead of modern technology, and others like the nano-scale oil and gas twin cylinders on the metal spider, the extremely complex chip structure, and the unknown particle beam.

This series of equipment, without one hundred and eighty years of scientific and technological accumulation, Anna feels that it is difficult for the Avengers world to reach this level.

Osborne still wanted to speak, but Anna had already diverted his attention.

The metal spider had already sensed the gaze of the glutinous spirit, the kind of look that made itself a possession.

Rumble... The force of the impact made the safety box tremble.

The metal spider could not break out of the safety box for a short time, but the base of the safety box was fixed to the ground with anchor bolts.

It went even crazier at the sight of the twisting and loosening of the anchor bolts.

The little short legs had a small face, the little fat hand beckoned to the next door, and two industrial-grade robots walked up, under the control of Anna's brainwave amplifier, one robot carried a gamma-ray gun, and the other robot put a lead baffle behind the safety box.

Anna felt that the gamma ray gun was dangerous and that she had to take precautions.

Rumble... An anchor bolt popped out and was thrown into the air, smashing into the wall like a cannonball.

There was a bang, and a pit appeared in the wall.

The little short leg picked up the bottle, took a sip, and snapped his fingers at the robot.

The robot pushes the switch.

The metal robot sensed the apocalypse, and in its memory chip, there existed descriptions of this machine, gamma-ray guns, their sworn enemies.

It hit harder.

There was a bang, and the three anchor bolts broke one after another, and one side of the safety box had lost its fixation.

The metal robot rolls, and the safety box trembles.

Inside the ray gun, four laser emitters have converged and superimposed to form a beam, and white light has come out of the muzzle.

Airplanes... With a muffled sound, the metal robot collapsed in the safety box, and green smoke came out of its head.

High-energy, high-density gamma rays burned out the chips of metal robots.

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