Tiny metajets could steer light sails for interstellar travel

Engineers at NASA's Jet Propulsion Laboratory have successfully tested larger rotor blades that spin faster than the speed of sound without breaking apart. The milestone, announced on Thursday, boosts lift capability by 30 percent for future Mars missions.

2026년 04월 19일 AI에 의해 보고됨

시안전자과학기술대학교 연구팀이 차량 탑재형 마이크로파 무선 전력 전송 시스템을 개발하여 고정익 드론을 최대 3.1시간 동안 공중에 머물게 하는 데 성공했다. 이 시스템은 GPS 위치 추적, 동적 추적, 그리고 탑재된 비행 제어 기술을 활용하여 비행 중 송신기와 드론 간의 정렬을 유지한다. 해당 연구 결과는 3월 25일 동료 심사를 거치는 학술지 '항공과학기술(Aeronautical Science & Technology)'에 게재되었다.

Scientists at the University of Basel and ETH Zurich have reversed the polarity of a specialized ferromagnet with a focused laser beam, without heating the material. This achievement, detailed in Nature, combines electron interactions, topology, and dynamical control in a single experiment. The method hints at future light-based electronic circuits on chips.

2026년 02월 17일 AI에 의해 보고됨

Researchers led by Jun Ye at JILA in Boulder, Colorado, suggest placing an ultrastable laser in one of the moon's permanently shadowed craters to enhance navigation for lunar landers and rovers. The frigid, vibration-free environment near the lunar poles could enable unprecedented precision in timing and positioning. This setup might support activities from lunar timekeeping to satellite coordination.

An international team of researchers has achieved a milestone in quantum communication by teleporting the polarization state of a single photon between two separate quantum dots over a 270-meter open-air link. The experiment, conducted at Sapienza University of Rome, demonstrates the potential for quantum relays in future quantum networks. The findings were published in Nature Communications.

2026년 04월 28일 AI에 의해 보고됨

Researchers at MIT have discovered that chaotic laser light can self-organize into a highly focused pencil beam, enabling 3D imaging of the blood-brain barrier 25 times faster than current methods. The technique allows real-time observation of drugs entering brain cells without fluorescent tags. This breakthrough could speed up development of treatments for neurological diseases like Alzheimer's and ALS.