New Research Suggests Rocky Exoplanets Could Store Water in Their Molten Iron Cores
Rocky Exoplanets May Contain More Water Yet Offer Less Potential for Habitability, Study Finds Devamını Oku
Could Powerful Lasers Unlock Affordable Fusion Power?
In the 1980s, secret nuclear fusion experiments conducted deep beneath Nevada showed promise, sparking the curiosity of physicists Conner Galloway and Alexander Valys. They realized fusion, the same process that powers the sun, had been ignited in a lab setting. This discovery led to the creation of the National Ignition Facility (NIF) in California, where, in late 2022, researchers achieved a breakthrough: the first fusion reaction that produced more energy than the lasers input.
However, NIF’s laser was barely powerful enough to achieve this result. Galloway and Valys, now co-founders of Xcimer in Denver, believe that more powerful lasers could unlock the potential for fusion power to fuel the electricity grid. They are developing lasers capable of up to 20 megajoules of energy—ten times more powerful than NIF’s laser—and plan to experiment with larger, simpler fuel capsules.
Xcimer joins a growing global effort to build a working fusion reactor. They plan to use molten salt to absorb heat from the fusion reaction and protect the reactor from damage caused by high-energy particles. The goal is to build a reactor that could be connected to the power grid by the mid-2030s.
However, skepticism remains. Some experts, like Prof. Ian Lowe, argue that fusion technology might not be commercially viable soon enough to address climate change, as decarbonization is needed much sooner than the projected timeline for fusion reactors.
Nonetheless, fusion startups like Xcimer remain optimistic, driven by the promise of cheap, carbon-free energy that could dramatically change the future.
SpaceX Readies Polaris Dawn Crew for Daring Spacewalk Mission Amid Uncertain Weather Conditions
SpaceX is preparing for another attempt to launch Polaris Dawn, a high-risk mission sending four civilians into space for a historic spacewalk within Earth’s radiation belts. The mission, initially delayed by technical and weather issues in August, is now slated to launch from Kennedy Space Center, Florida, as early as 3:38 a.m. ET on Tuesday. Should weather conditions prevent the launch, other windows are available at 5:23 a.m. ET and 7:09 a.m. ET the same day, with further opportunities on Wednesday morning.
Forecasts remain uncertain, with a 60% chance of unfavorable conditions, while mission controllers are also monitoring splashdown site weather for the crew’s planned return after their five-day space journey. Despite the risk, mission commander Jared Isaacman expressed optimism, noting improved conditions compared to previous weeks.
Isaacman, who is funding the mission, is joined by Scott Poteet, a former US Air Force pilot, and SpaceX engineers Anna Menon and Sarah Gillis. This flight marks the first time a civilian crew will conduct extravehicular activities, scheduled for the third day of the mission.
Polaris Dawn will venture into the Van Allen radiation belts, making it the first human mission to reach that far into space since the Apollo program ended in 1972. Given the reliance on oxygen supplies for the spacewalk, timing is crucial to ensure the mission’s on-time return.
In addition to Polaris Dawn, SpaceX is also preparing for NASA’s Europa Clipper mission, set for an October launch to explore Jupiter’s icy moon.