When Newton’s laws can’t help nuclear fusion
Engineers use elaborate magnetic confinement systems to prevent the leakage of alpha particles from the reactors. For instance, a stellarator uses external coils that generate magnetic fields to confine plasma and high-energy particles. Such confinement is also referred to as a ‘magnetic bottle’. However, these are holes in the magnetic bottle that allow the alpha particles to escape.
Luckily, some models help estimate where these holes can occur. Using Newton’s Laws of Motion, scientists can precisely predict where the holes occur. Still, such computations take an enormous amount of time.
If the approach is used in designing the stellarator, the simulation would need hundreds of thousands of slightly different designs and tweaks of magnetic coil layouts to eliminate the holes. This would further increase the computation requirement, making it unfeasible to attempt.
A new approach to gravity
In the framework of the Standard Model, the three fundamental forces arise due to certain symmetries in their quantum fields. Each force has a unique symmetry pattern associated with it.
To develop a similar framework for gravity, the researchers introduce a new mathematical quantity called the spacetime dimension field. This entity has four symmetries that give rise to the gravitational field when applied to every point in spacetime.
In other words, gravity naturally emerges from the symmetries of the spacetime dimension field, just as we see with the other three forces in the Standard Model.
“Brave1 has developed an entire ecosystem of Ukrainian defense tech, bringing together more than 1,500 innovative companies in just two years,” said Brave1 Director Nataliia Kushnerska.
“The cluster has helped create entire markets for technologies such as UGVs, short-range electronic warfare systems, interceptor drones, AI-enabled drones, and fiber-optic drones. Brave1’s new priority is to accelerate the deployment of these innovations on the battlefield, and Brave1 Market will help us achieve that.”
Over two years, the cluster has awarded over 540 grants totaling 2.2 billion UAH.
The national budget for 2025 allocates an additional 2.9 billion UAH to support defense tech initiatives.
Brave1’s strategic priorities include the development of rockets, lasers, drone swarms, CRPA antennas, naval drones, anti-Shahed and anti-PGM systems, “mother drones,” Ukrainian Mavics, and guided munitions.
The Brave1 Defense Tech Era event, supported by the Ministry of Digital Transformation of Ukraine, attracted over 900 participants from the defense tech community, including government officials, top developers, investors, and security and defense forces representatives.
Brave1 Market represents an important step in modernizing Ukraine’s defense procurement process, ensuring that innovative technologies reach the front lines efficiently and effectively.
Under the new RFI, the US government proposes a quick turnaround for any chosen missile design. The timeline would include two six-month design cycles followed by a 12-month follow-on for production.
An evolving battlefield
The call for smaller missiles reflects the evolving nature of modern warfare. Attack drones are ubiquitous in recent conflicts. In May 2024, Ukrainian military officials stated that “drones kill more soldiers on both sides than anything else.”
Meanwhile, an EU Institute for Security Studies report recently claimed that Russia procures 100,000 low-tier drones monthly from multiple sources.
This change has also led to renewed emphasis on air defense training for ground troops. Last month, the US Marine Corps announced it would deploy a new handheld counter-drone system prototype on the battlefield. Alongside this new technology, the Marines are now set to emphasize air defense training.
Beyond nuclear survivability, Vislyuk is a modular support platform designed to serve in multiple battlefield roles.
These include logistics transport, casualty evacuation, route mining, engineering support, surveillance, and signal relay functions.
Its configuration allows conversion into a mobile combat module or a radio repeater, extending communication ranges for dispersed units and ensuring situational awareness in communication-denied environments.
The design, developed by a domestic Ukrainian defense contractor under military specification, resembles a compact tracked vehicle with a flatbed architecture.
This configuration allows for rapid payload integration and stable cross-country mobility. The system can be transported easily to forward positions and deployed in terrains ranging from urban rubble and swamp to sand and deep mud.
Propulsion is provided by two independent electric motors, selected for their low acoustic signature and high torque-to-weight ratio.
This capability is especially critical in Eastern Ukraine, where threat matrices now include dirty bombs, electromagnetic disruption, and chemical-biological scenarios.
As nuclear risk re-enters modern operational planning, Vislyuk is emblematic of a shift in Ukrainian military design: survivability and redundancy take precedence over mass.
By fielding a platform that is both EMP-resilient and fibre-linked, Kyiv ensures its ground operations can remain functional when others falter.
The Vislyuk is not for show; it is a workhorse designed for tough modern battles.
In today’s world, where different forces compete for control, even basic support vehicles need to be ready for nuclear threats.
According to researchers, the problem stems from researchers not distinguishing between the behavior of the sensor material and the electrical contacts. “A lot of scientists misunderstand their sensor response because they lump together the behavior of the contacts with the behavior of the sensor material,” said Matthew Grayson, a professor of electrical and computer engineering at Northwestern’s McCormick School of Engineering, in a statement.
The researchers achieved stronger and more reliable electrical contact by sanding down this insulating layer. They also developed a calibration method to measure the thickness of the layer both electrically and microscopically, offering a new troubleshooting approach that other researchers can follow.
Utilizing photographs of real-life manta ray groupings, the researchers designed simulations for three manta rays in the following formations: linear tandem, one with a single ray leading two in a V-like triangle, and an inverted triangle with one trailing behind the pair.
They found the tandem configuration was distinctively advantageous, but only for the manta ray in the middle position. This swimmer received a propulsion boost from the flow created by the front ray, considerably enhancing its maneuverability.
On the other hand, the two arrangements seemed to limit efficiency if set against the metric of an individual swimming solo.
“The tandem formation and the triangular formation are the formations that manta rays often use during group swimming,” said Gao.
“This biological information also supports the idea that a small group of three individuals can be used as a basic unit for more complex group swimming.”
They further explained that exploring every possible electrolyte combination using lab testing alone would be nearly impossible, with the number of potential candidate molecules estimated to go as high as 10⁶⁰.
“It would have been impossible for us to go through hundreds of millions of compounds to say, ‘Oh, I think we should study this one,'” Amanchukwu stated, and compared using AI in research to listening to music online.
Like music recommendation algorithms, the AI learns patterns to predict the most promising molecules. Amanchukwu stated that the next step is developing an AI that doesn’t just pick songs, but also creates playlists, thus paving the way for the design of entirely new molecules.
Despite the dataset’s size, the researchers emphasized that training the model was only the beginning. The AI was evaluated on molecules it had never seen before to test its true potential. It performed well on those chemically similar to known compounds but struggled with unfamiliar ones.
Now the team is focused on overcoming its next major challenge, which involves training the AI model to accurately predict the performance of molecules in completely different chemical spaces. This is an essential step toward advancing next-generation battery design.
Rogers says he was shown the footage by another Air Force officer who invited him to a locked room and then brought up a video feed. The monitor showed a 20-foot flying saucer with U.S. Air Force markings capable of levitating and rotating with propulsion unlike any known to conventional aircraft.
"I know exactly what I saw that day," Rogers told the outlet. "It was in no fashion a conventional flying vehicle."
The former Air Force officer said that he was inspired to come forward following other recent testimony of whistleblowers that allege the U.S. government has not been transparent about the existence of such craft and the obvious implications for extraterrestrial life.
"This administration is devastating one of our nation's fastest-growing sources of clean, reliable and affordable energy," New York Attorney General Letitia James said in a statement. "This arbitrary and unnecessary directive threatens the loss of thousands of good-paying jobs and billions in investments, and it is delaying our transition away from the fossil fuels that harm our health and our planet."
The states involved are Arizona, California, Colorado, Connecticut, Delaware, Illinois, Maine, Maryland, Massachusetts, Michigan, Minnesota, New Jersey, New Mexico, New York, Oregon, Rhode Island, and Washington.
The U.S. Department of Justice is now investigating the law, which singles out the clergy "with no exception for the absolute seal of confidentiality that applies to Catholic Priests." The DOJ also points to the overall theme of the law potentially violating the First Amendment.
The DOJ's Civil Rights Department is handling the investigation into what the department describes as an "apparent conflict" between the law and the "free exercise of religion under the First Amendment."
The Washington State Standard reported that the bill sponsor, Seattle Democrat state Sen. Noel Frame, needed three years to get the bill to the governor's desk. She said imposing the disclosure requirement on priests was paramount. "You never put somebody's conscience above the protection of a child."
!summarize #tesla #semi #ev
When Newton’s laws can’t help nuclear fusion
Engineers use elaborate magnetic confinement systems to prevent the leakage of alpha particles from the reactors. For instance, a stellarator uses external coils that generate magnetic fields to confine plasma and high-energy particles. Such confinement is also referred to as a ‘magnetic bottle’. However, these are holes in the magnetic bottle that allow the alpha particles to escape.
Luckily, some models help estimate where these holes can occur. Using Newton’s Laws of Motion, scientists can precisely predict where the holes occur. Still, such computations take an enormous amount of time.
If the approach is used in designing the stellarator, the simulation would need hundreds of thousands of slightly different designs and tweaks of magnetic coil layouts to eliminate the holes. This would further increase the computation requirement, making it unfeasible to attempt.
A new approach to gravity
In the framework of the Standard Model, the three fundamental forces arise due to certain symmetries in their quantum fields. Each force has a unique symmetry pattern associated with it.
To develop a similar framework for gravity, the researchers introduce a new mathematical quantity called the spacetime dimension field. This entity has four symmetries that give rise to the gravitational field when applied to every point in spacetime.
In other words, gravity naturally emerges from the symmetries of the spacetime dimension field, just as we see with the other three forces in the Standard Model.
!summarize #tesla #gigafactories
“Brave1 has developed an entire ecosystem of Ukrainian defense tech, bringing together more than 1,500 innovative companies in just two years,” said Brave1 Director Nataliia Kushnerska.
“The cluster has helped create entire markets for technologies such as UGVs, short-range electronic warfare systems, interceptor drones, AI-enabled drones, and fiber-optic drones. Brave1’s new priority is to accelerate the deployment of these innovations on the battlefield, and Brave1 Market will help us achieve that.”
Over two years, the cluster has awarded over 540 grants totaling 2.2 billion UAH.
The national budget for 2025 allocates an additional 2.9 billion UAH to support defense tech initiatives.
Brave1’s strategic priorities include the development of rockets, lasers, drone swarms, CRPA antennas, naval drones, anti-Shahed and anti-PGM systems, “mother drones,” Ukrainian Mavics, and guided munitions.
The Brave1 Defense Tech Era event, supported by the Ministry of Digital Transformation of Ukraine, attracted over 900 participants from the defense tech community, including government officials, top developers, investors, and security and defense forces representatives.
Brave1 Market represents an important step in modernizing Ukraine’s defense procurement process, ensuring that innovative technologies reach the front lines efficiently and effectively.
Under the new RFI, the US government proposes a quick turnaround for any chosen missile design. The timeline would include two six-month design cycles followed by a 12-month follow-on for production.
An evolving battlefield
The call for smaller missiles reflects the evolving nature of modern warfare. Attack drones are ubiquitous in recent conflicts. In May 2024, Ukrainian military officials stated that “drones kill more soldiers on both sides than anything else.”
Meanwhile, an EU Institute for Security Studies report recently claimed that Russia procures 100,000 low-tier drones monthly from multiple sources.
This change has also led to renewed emphasis on air defense training for ground troops. Last month, the US Marine Corps announced it would deploy a new handheld counter-drone system prototype on the battlefield. Alongside this new technology, the Marines are now set to emphasize air defense training.
Beyond nuclear survivability, Vislyuk is a modular support platform designed to serve in multiple battlefield roles.
These include logistics transport, casualty evacuation, route mining, engineering support, surveillance, and signal relay functions.
Its configuration allows conversion into a mobile combat module or a radio repeater, extending communication ranges for dispersed units and ensuring situational awareness in communication-denied environments.
The design, developed by a domestic Ukrainian defense contractor under military specification, resembles a compact tracked vehicle with a flatbed architecture.
This configuration allows for rapid payload integration and stable cross-country mobility. The system can be transported easily to forward positions and deployed in terrains ranging from urban rubble and swamp to sand and deep mud.
Propulsion is provided by two independent electric motors, selected for their low acoustic signature and high torque-to-weight ratio.
This capability is especially critical in Eastern Ukraine, where threat matrices now include dirty bombs, electromagnetic disruption, and chemical-biological scenarios.
As nuclear risk re-enters modern operational planning, Vislyuk is emblematic of a shift in Ukrainian military design: survivability and redundancy take precedence over mass.
By fielding a platform that is both EMP-resilient and fibre-linked, Kyiv ensures its ground operations can remain functional when others falter.
The Vislyuk is not for show; it is a workhorse designed for tough modern battles.
In today’s world, where different forces compete for control, even basic support vehicles need to be ready for nuclear threats.
According to researchers, the problem stems from researchers not distinguishing between the behavior of the sensor material and the electrical contacts. “A lot of scientists misunderstand their sensor response because they lump together the behavior of the contacts with the behavior of the sensor material,” said Matthew Grayson, a professor of electrical and computer engineering at Northwestern’s McCormick School of Engineering, in a statement.
The researchers achieved stronger and more reliable electrical contact by sanding down this insulating layer. They also developed a calibration method to measure the thickness of the layer both electrically and microscopically, offering a new troubleshooting approach that other researchers can follow.
Utilizing photographs of real-life manta ray groupings, the researchers designed simulations for three manta rays in the following formations: linear tandem, one with a single ray leading two in a V-like triangle, and an inverted triangle with one trailing behind the pair.
They found the tandem configuration was distinctively advantageous, but only for the manta ray in the middle position. This swimmer received a propulsion boost from the flow created by the front ray, considerably enhancing its maneuverability.
On the other hand, the two arrangements seemed to limit efficiency if set against the metric of an individual swimming solo.
“The tandem formation and the triangular formation are the formations that manta rays often use during group swimming,” said Gao.
“This biological information also supports the idea that a small group of three individuals can be used as a basic unit for more complex group swimming.”
They further explained that exploring every possible electrolyte combination using lab testing alone would be nearly impossible, with the number of potential candidate molecules estimated to go as high as 10⁶⁰.
“It would have been impossible for us to go through hundreds of millions of compounds to say, ‘Oh, I think we should study this one,'” Amanchukwu stated, and compared using AI in research to listening to music online.
Like music recommendation algorithms, the AI learns patterns to predict the most promising molecules. Amanchukwu stated that the next step is developing an AI that doesn’t just pick songs, but also creates playlists, thus paving the way for the design of entirely new molecules.
Despite the dataset’s size, the researchers emphasized that training the model was only the beginning. The AI was evaluated on molecules it had never seen before to test its true potential. It performed well on those chemically similar to known compounds but struggled with unfamiliar ones.
Now the team is focused on overcoming its next major challenge, which involves training the AI model to accurately predict the performance of molecules in completely different chemical spaces. This is an essential step toward advancing next-generation battery design.
Rogers says he was shown the footage by another Air Force officer who invited him to a locked room and then brought up a video feed. The monitor showed a 20-foot flying saucer with U.S. Air Force markings capable of levitating and rotating with propulsion unlike any known to conventional aircraft.
"I know exactly what I saw that day," Rogers told the outlet. "It was in no fashion a conventional flying vehicle."
The former Air Force officer said that he was inspired to come forward following other recent testimony of whistleblowers that allege the U.S. government has not been transparent about the existence of such craft and the obvious implications for extraterrestrial life.
"This administration is devastating one of our nation's fastest-growing sources of clean, reliable and affordable energy," New York Attorney General Letitia James said in a statement. "This arbitrary and unnecessary directive threatens the loss of thousands of good-paying jobs and billions in investments, and it is delaying our transition away from the fossil fuels that harm our health and our planet."
The states involved are Arizona, California, Colorado, Connecticut, Delaware, Illinois, Maine, Maryland, Massachusetts, Michigan, Minnesota, New Jersey, New Mexico, New York, Oregon, Rhode Island, and Washington.
The U.S. Department of Justice is now investigating the law, which singles out the clergy "with no exception for the absolute seal of confidentiality that applies to Catholic Priests." The DOJ also points to the overall theme of the law potentially violating the First Amendment.
The DOJ's Civil Rights Department is handling the investigation into what the department describes as an "apparent conflict" between the law and the "free exercise of religion under the First Amendment."
The Washington State Standard reported that the bill sponsor, Seattle Democrat state Sen. Noel Frame, needed three years to get the bill to the governor's desk. She said imposing the disclosure requirement on priests was paramount. "You never put somebody's conscience above the protection of a child."