Some cancers develop from defective B cells. Bruton’s tyrosine kinase inhibitors work by targeting a protein critical to the lifecycle of those B cells. Learn from Michael Wang, M.D., how these drugs work and why they’re considered a breakthrough for treating B-cell lymphomas.
Our understanding of RNA evolution still has a long way to go, but this experiment has made a huge leap forward.
New tech enables this old idea to really shine. [pun intended.] It’s not perfect, but major steps achieved.
Get TypeAI PREMIUM now! Start your FREE trial by clicking the link here: https://bit.ly/Mar24AnastasiInTech The paper: https://www.nature.com/articles/s41586…(alternative link): https://arxiv.org/abs/2306.14415 LinkedIn ➜ / anastasiintech Support me at Patreon ➜
/ anastasiintech Sign up for my Deep In Tech Newsletter for free! ➜ https://anastasiintech.substack.com Timestamps: 00:00 — Intro 03:16 — Lithium Niobate 05:56 — How does this chip work? 08:23 — Critics.
A liquid hydrogen airliner with a range of over 5,000 miles. It’s feasible per them, by 2030 and limits pollution.
A breakthrough liquid hydrogen-fueled aircraft concept developed in the United Kingdom could take passengers from London to San Francisco with no layover.
That’s because the massive plane would have an operational range of 5,250 nautical miles (equivalent to air miles) and wouldn’t need to land to fill up with gas. This would provide more than enough range for the flight of roughly 11 hours and 4,664 nautical miles.
This concept plane was developed by the FlyZero project, a program led by the Aerospace Technology Institute with the goal of providing air travel with no pollution (zero-carbon) in the next decade, as the agency states on its website.
Posted in innovation, robotics/AI
Figure: We are now having full conversations with Figure 1, thanks to our partnership with OpenAI.
Our robot can: — describe its visual experience — plan future actions — reflect on its memory — explain its reasoning verbally.
Breakthrough discovery puts astronomers one step closer to solving the mystery of the origin of elements that are heavier than iron. An international team of astronomers — including Clemson University astrophysicist Dieter Hartmann — obtained observational evidence for the creation of rare heavy elements in the aftermath of a cataclysmic explosion triggered by the merger of two neutron stars.
The massive explosion unleashed a gamma-ray burst, GRB230307A, the second brightest in 50 years of observations and about 1,000 times brighter than a typical gamma-ray burst. GRB230307A was first detected by NASA’s Fermi Gamma-Ray Space Telescope on March 7, 2023.
Using multiple space-and ground-based telescopes, including NASA’s James Webb Space Telescope, the largest and most powerful telescope ever launched into space, scientists were able to pinpoint the source of the gamma-ray burst in the sky and track how its brightness changed.
Piaggio, the maker of Vespa, unveils new AI robot, Kilo with innovative fast-following tech. This could be huge going into the future.
Quantum researchers uncover important implications for quantum technology.
In a recent publication in Nature Physics, the LSU Quantum Photonics Group offers fresh insights into the fundamental traits of surface plasmons, challenging the existing understanding. Based on experimental and theoretical investigations conducted in Associate Professor Omar Magaña-Loaiza’s laboratory, these novel findings mark a significant advancement in quantum plasmonics, possibly the most noteworthy in the past decade.
Rethinking Plasmonic Behavior
Scientists have made a breakthrough with an ALP facilitating underwater communication. Check out how this could be a game-changer for us.
Researchers have discovered significant amounts of water vapor in the disc around the young star HL Tauri, suggesting the presence of water where planets are forming. This breakthrough, enabled by the ALMA telescope in Chile, marks the first time astronomers have been able to quantify water vapor in a cool, stable disc conducive to planet formation. The findings could have profound implications for our understanding of how planets, particularly those capable of hosting life, are formed. (Artist’s concept.) Credit: SciTechDaily.com.
Researchers have found water vapor in the disc around a young star exactly where planets may be forming.
Water is a key ingredient for life on Earth and is also thought to play a significant role in planet formation, yet, until now, astronomers have never been able to map how water is distributed in a stable, cool disc — the type of disc that offers the most favorable conditions for planets to form around stars.
