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And it could halve the transit time to Mars.

Pulsar Fusion Ltd., a nuclear fusion company based in the United Kingdom, has recently designed and successfully tested its first launch-capable, high-power chemical rocket engine.

From launching people and payloads into space, this engine could have numerous applications, but the company’s ultimate goal is to develop a hyper-speed propulsion engine using nuclear fusion technologies for interplanetary travel, with the first prototype expected in 2025.

And when this dream comes into fruition, it could cut the journey time to Mars in half.

The goal: Nuclear fusion-powered engines The company is one of just a few in the world aiming to develop hyper-speed propulsion engines based on nuclear fusion technology. The static test which saw the engine fired into full thrust to measure performance took place on November 17 and 18, 2021 at the Ministry of Defence military base in Salisbury, as seen in the video below, which was released on Sunday.

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The Moon awaits. After long decades in which no human being set foot on the lunar surface, we are heading back. And quite soon.

As part of the NASA-led Artemis program, astronauts are returning to the lunar environment as soon as 2024, with a view to ultimately establishing a long-term human presence on the Moon – a place we haven’t seen in person since 1972.

To live and work on the Moon, though, astronauts will need power and plenty of it, and there’s no power grid on the Moon.

Humans haven’t set foot on the Moon since the Apollo 17 mission in 1972. By the time they return to our cosmic neighbor by around 2025, the exploration landscape will be very different due to wide-ranging technological advances.

In a bid to further accelerate the technology that will power future lunar missions, NASA, alongside the Department of Energy (DOE) 0, has put out a press statement calling for companies to help it develop nuclear energy solutions.

Scientists have been experimenting with the creation of nuclear energy for decades and have used nuclear fission — the process of breaking atoms apart — to power everything from devasting atomic bombs to clean nuclear energy.

However, this kind of nuclear energy is different from cosmic inspired nuclear fusion in one significant way: it’s not self-sustaining. Creating enough energy on Earth to power this kind of reaction has been just out of reach for decades.

But that could soon be changing. First reported in August 2021, nuclear scientists from the National Ignition Facility (NIF) at Lawrence Livermore National Laboratory have come closer than ever before to prove that self-sustaining nuclear fusion — or fusion ignition — is really possible.

If anyone has a good idea on how to put a nuclear fission power plant on the moon, the U.S. government wants to hear about it.

NASA and the nation’s top federal nuclear research lab on Friday put out a request for proposals for a surface power system.

NASA is collaborating with the U.S. Department of Energy’s Idaho National Laboratory to establish a sun-independent power source for missions to the by the end of the decade.

We’ve been seeing a wave of innovations in solar panel technology, like perovskite solar cells, solar tiles and roofs, and organic panels. But what if we could harvest solar energy from the windows and skylights of our homes and skyscrapers, or even from our car windows and cellphone screens? Let’s explore transparent solar panels and how they stack up against conventional panels. Could transparent solar cells be the future of solar energy? Or does it remain to be unseen?

Watch Exploring Why This Nuclear Fusion Breakthrough Matters: h https://youtu.be/-KEwkWjADEA?list=PLnTSM-ORSgi7UWp64ZlOKUPNXePMTdU4d.

Video script and citations:
https://undecidedmf.com/episodes/exploring-why-transparent-solar-panels-future-isnt-clear.

Follow-up podcast:
Video version — https://www.youtube.com/channel/UC4-aWB84Bupf5hxGqrwYqLA
Audio version — http://bit.ly/stilltbdfm.

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Alarm bells are ringing in the halls of the Pentagon led by General Mark Milley, senior Pentagon officials are becoming increasingly worried about China’s rapid expansion of its nuclear arsenal.

#Pentagon #China #UnitedStates.

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And just as private space travel is now materializing, many industry observers are forecasting that the same business model will give rise to commercial fusion — desperately needed to decarbonize the energy economy — within a decade. “There’s a very good shot to get there within less than ten years,” says Michl Binderbauer, chief executive of TAE Technologies. In the FIA report, a majority of respondents thought that fusion would power an electrical grid somewhere in the world in the 2030s.


An emerging industry of nuclear-fusion firms promises to have commercial reactors ready in the next decade.

The creation of the Rolls-Royce Small Modular Reactor (SMR) business was announced following a £195m cash injection from private firms and a £210m grant from the government.

It is hoped the new company could create up to 40,000 jobs by 2050.

However, critics say the focus should be on renewable power, not new nuclear.


Private investors and the UK government will help fund the firm’s development of small nuclear reactors.

A team of researchers from Tri Alpha Energy Inc. and Google has developed an algorithm that can be used to speed up experiments conducted with plasma. In their paper published in the journal Scientific Reports, the group describes how they plan to use the algorithm in nuclear fusion research.

As research into harnessing has progressed, scientists have found that some of its characteristics are too complex to be solved in a reasonable amount of time using current technology. So they have increasingly turned to computers to help. More specifically, they want to adjust certain parameters in a device created to achieve fusion in a reasonable way. Such a device, most in the field agree, must involve the creation of a certain type of that is not too hot or too cold, is stable, and has a certain desired density.

Finding the right parameters that meet these conditions has involved an incredible amount of trial and error. In this new effort, the researchers sought to reduce the workload by using a to reduce some of the needed trials. To that end, they have created what they call the “optometrist’s .” In its most basic sense, it works like an optometrist attempting to measure the visual ability of a patient by showing them images and asking if they are better or worse than other images. The idea is to use the crunching power of a computer with the intelligence of a human being—the computer generates the options and the human tells it whether a given option is better or worse.