<strong>Chapter 659 Amazing Experimental Results</strong>


    Bubbles in a liquid could be stably suspended and periodically pulsated by a certain sound field. When it reached a copse, within picoseconds, the bubble could produce a volumetricpression ratio of one to a million and create a high temperature and high pressure environment. When the sound pressure wasrge enough, the energy umtion would cause the bubbles to illuminate. This phenomenon was called sonoluminescence.


    In a proper driving pressure environment, the sonoluminescence bubbles could remain spherical. The nonlinear vibration was repeated for millions or even hundreds of millions of cycles. Because of this characteristic, controble fusion could possibly be achieved under rtively low-temperature conditions.


    Inside the Jinling Institute for Advanced Study.


    The acousticsboratory in the Institute of Physics was temporarily taken over by a controble fusion miniaturization team led by Lu Zhou. A transparent container with a radius of around three inches was ced on one of the tables in theboratory.


    The entire transparent container was filled with a viscous concentrated sulfuric acid. High-powered ultrasonic generators were attached to both sides of the container. Various sophisticated instruments were ced around the entire unit, and they were ready to collect experimental data.


    Because the sonoluminescence phenomenon happened at the picosecond scale, it was difficult forboratory cameras to capture all the light sh, especially at the moment when the bubble copsed to its smallest size.


    Therefore, for this experiment, Lu Zhou borrowed a set of “a phase-locked loop-based proportional-integral experimental system” from the Jin Ling University Institute of Acoustics.


    Other than being used in these special acoustic experiments, this system was generally used to study anti-submarine sonar systems. If it weren’t for Lu Zhou personally asking for the favor, the Institute of Acoustics director would never in a million years have lent out the equipment.


    Sheng Xianfu was standing next to the experiment device, and he looked at Lu Zhou.


    Lu Zhou nodded.


    “Let’s start.”


    “Ok.”


    Sheng Xianfu took a deep breath and walked to the nearestputer. He then swiftly pressed a few buttons.


    As a short mosquito-like buzzing sound was heard, the high-powered ultrasonic generator began to release ultrasonic waves into the solution, transferringrge amounts of energy.


    When the sound pressure in the fluid reached five times the standard atmospheric pressure, Lu Zhou ordered.


    “Inject the xenon!”


    “Ok!”


    The xenon gas was injected, and a series of bubbles slowly floated from the bottom of the container to the center.


    Immediately after, the power of the ultrasonic transmitter began to gradually increase, and the sound pressure applied to the bubble also began to increase.


    The moment the sound pressure on the bubble reached 15 times the standard atmospheric pressure, the xenon bubble floating in the concentrated sulfuric acid popped with a purple-white light!


    The researchers standing around the experiment had a look of joy on their faces.


    Even though this was only a test of the experiment device, and they were a long way from seeding, this was definitely a good start.


    The bubbles suspended in the fluid continuously shed 10 sets of light-rays, and the photos were captured by the phase-locked loop-based proportional-integral imaging system. Several acoustic physicists at the Institute for Advanced Study immediately began to analyze the photos and calcte the luminescence temperature and power.


    After Lu Zhou looked at the experimental data, he nced at Sheng Xianfu.


    The luminous power was around 130W. Even though it was gone in a sh, it was still quite astonishing. The peak temperature of the bubble surface reached a terrifying number of 1.5 million kelvin. It was like the inside of the sun was floating in the solution!


    Of course, this data could be inurate.


    After all, the copse of the bubble happened instantaneously. It wasn’t easy to capture the temperature in the first ce, much less reducing the data collection error.


    “The first phase of the experiment was sessful, let’s enter the next stage,” Lu Zhou said. He ced the experimental report on the table and said to Sheng Xianfu, “Add a neutron shieldingyer to the container and prepare for a deuterium-tritium gas injection!”


    Sheng Xianfu nodded seriously and said, “Ok!”


    The first stage of the experiment was a test of whether or not the design of the set-up was feasible and whether or not they could provide enough sound pressure to the bubble such that the temperature could reach more than a million kelvin.


    It seemed like their experiment was very sessful.


    The xenon floating in the fluid waspressed to a tiny point, and inside that point was energy equivalent to that of a tiny star.


    Even though it was at a temperature in the millions and was still far from controble fusion ignition, the temperature wasn’t the only way to achieve fusion ignition.


    Not only did the bubble reach millions of kelvin, but it was also at a terrifying density level!


    And density was the other condition for fusion reaction!


    The researchers in theboratory ced a transparent container in a ck box, which was made of neutron-shielding material. They turned off the phase-locked loop-based proportional-integral imaging system and began to set-up the experiment again.


    However, this time, the xenon was changed to a deuterium-tritium gas mixture. The ultrasonic power also increased by a whole magnitude.


    The experiment began.


    Even though the ck box blocked the researchers’ view, it didn’t really matter.


    Some things didn’t need to be seen by the naked eye, and experimental data was often more reliable.


    The researchers took out the concentrated sulfuric acid container and began to analyze the radiation damage and neutron fluence rate.


    Lu Zhou was standing next to the researchers, quietly waiting for the experimental result.


    Ten minutes passed by.


    The results finally came out.


    “The results are here!” a researcher happily said. He handed Lu Zhou thepleted experimental report and said excitedly, “Through the neutron shielding material detection, there is sufficient evidence to suggest that the surface of the material was bombarded with 2.5 MeV neutrons during the experiment... The neutron fluence rate increased by 1.7%


    “We have confirmation that the fusion reaction has urred!”


    Everyone in theboratory was excited, and they nearly started to cheer.


    Especially Sheng Xianfu!


    He tightly clenched his fists.


    This might work!


    There wasn’t anyone more excited than him.


    However, even though the experimental results were gratifying, the neutron fluence rate wasn’t optimal.


    They only observed signs of fusion reactions urring. They were still far from using this set-up for stable controble fusion reactions.


    Professor Li Changxia stared at the data in the experimental report and said, “The neutron fluence rate is way too low. If we want to achieve a stable controble fusion reaction... this magnitude of the sound wave might not be enough.”


    Lu Zhou nodded seriously, and he said, “You’re right, with our current set-up, it’s difficult to achieve stable controble fusion reactions. I think we have to rece the fluid.”


    Professor Li Changxia asked, “What kind of fluid do you n on using?”


    Lu Zhou shook his head and said, “I don’t know, but I do have a rough idea.”


    “Idea?”


    “Yes.” Lu Zhou nodded and said, “Since traditional liquids can’t reach the requirements under room temperature, why don’t we try liquid metals? I think liquid lithium might be worth trying...”