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Apr 18, 2023

Is artificial intelligence advancing too quickly? What AI leaders at Google say

Posted by in categories: economics, geopolitics, robotics/AI, treaties

It is an unsettling moment. Critics argue the rush to AI comes too fast — while competitive pressure— among giants like Google and start-ups you’ve never heard of, is propelling humanity into the future ready or not.

Sundar Pichai: But I think if take a 10-year outlook, it is so clear to me, we will have some form of very capable intelligence that can do amazing things. And we need to adapt as a society for it.

Google CEO Sundar Pichai told us society must quickly adapt with regulations for AI in the economy, laws to punish abuse, and treaties among nations to make AI safe for the world.

Apr 18, 2023

Machine Learning Investor Warns AI Is Becoming Like a God

Posted by in category: robotics/AI

A serial AI investor is raising alarm bells about the dogged pursuit of increasingly-smart machines, which he believes will become “god-like.”

Apr 18, 2023

Should We Fear Alien Artificial Intelligence?

Posted by in categories: alien life, robotics/AI

An exploration not of human artificial intelligence and chatbots, but what alien civilizations might do with the technology to very different outcomes.

An exploration of Machine Natural Selection and the potential of an AI Apocalypse.

Continue reading “Should We Fear Alien Artificial Intelligence?” »

Apr 18, 2023

One robot was able to watch another bot and predict its actions

Posted by in category: robotics/AI

A Columbia University study suggests that empathy between robots may be possible — and the skill could make the bots more useful to humans.

Apr 18, 2023

Michel Colombier — Colossus: The Forbin Project (1970) — Soundtrack

Posted by in categories: entertainment, media & arts

Collossus the forbin project soundtrack.


Universal Pictures presents the debut title in the Universal Pictures Film Music Classics Collection — the world premiere release of renowned composer Michel Colombier’s (UNE CHAMBRE EN VILLE, AGAINST ALL ODDS, RUTHLESS PEOPLE, THE GOLDEN CHILD) original motion picture score to the 1970 classic sci-fi feature film COLOSSUS: THE FORBIN PROJECT, starring Eric Braeden, Susan Clark and Gordon Pinsent, and directed by Joseph Sargent. Never before officially available in any format, Colombier’s wildly inventive score finally gets the deluxe treatment it deserves. It’s a musical marvel, and key to the film’s unending cult status, as it expertly balances cold suspense and unrelenting dread with moving emotion and even romance. The music program of this release was produced, mixed into stereo from 3-channel split elements, and mastered by Mike Matessino.

Apr 18, 2023

Neural-Dust-2016.Pdf

Posted by in category: neuroscience

Dropbox is a free service that lets you bring your photos, docs, and videos anywhere and share them easily. Never email yourself a file again!

Apr 18, 2023

Spontaneous Regression of Cancer with Fasting

Posted by in categories: biotech/medical, health

How can we increase natural killer cell activity naturally? Exercise can do it, unless, apparently, you’re eating a high-fat diet. Those randomized to undergo an exercise training program on a high-fat diet actually suffered a decline in natural killer cell activity, suggesting training on a high-fat diet is detrimental to the immune system. Eating lots of contaminated fatty fish may also adversely affect natural killer cell levels. But put people on a low-fat diet, and you can dramatically increase natural killer cell activity within a matter of months by about 50 percent, suggesting that dietary fat might increase the formation of cancer by depressing the tumor surveillance capacity of the immune system.

The bottom line in terms of fasting is that, at present, long-term fasting in cancer treatment is supported only by some case reports; so, more research is desperately needed. Sadly, there is currently no clinical research evaluating the effects of water-only fasting and a whole food, plant-based diet on follicular lymphoma in humans. Long-term fasting is certainly not without risk. In this case, a guy opted to try a 60-day fast instead of chemotherapy for non-Hodgkin lymphoma, ending up hospitalized in a coma and respiratory failure because of Wernicke encephalopathy, a life-threatening neurological emergency caused by thiamine deficiency. But starting on a healthier diet seems like a win-win no-brainer. Just putting people on a plant-based, whole foods, sugar-oil-salt-free diet, with or without fasting, is sometimes sufficient to induce an intense healing response.

Continue reading “Spontaneous Regression of Cancer with Fasting” »

Apr 18, 2023

Room-temperature superfluidity in a polariton condensate Physics

Posted by in categories: energy, information science, mapping, mathematics, quantum physics, space

face_with_colon_three year 2017.


First observed in liquid helium below the lambda point, superfluidity manifests itself in a number of fascinating ways. In the superfluid phase, helium can creep up along the walls of a container, boil without bubbles, or even flow without friction around obstacles. As early as 1938, Fritz London suggested a link between superfluidity and Bose–Einstein condensation (BEC)3. Indeed, superfluidity is now known to be related to the finite amount of energy needed to create collective excitations in the quantum liquid4,5,6,7, and the link proposed by London was further evidenced by the observation of superfluidity in ultracold atomic BECs1,8. A quantitative description is given by the Gross–Pitaevskii (GP) equation9,10 (see Methods) and the perturbation theory for elementary excitations developed by Bogoliubov11. First derived for atomic condensates, this theory has since been successfully applied to a variety of systems, and the mathematical framework of the GP equation naturally leads to important analogies between BEC and nonlinear optics12,13,14. Recently, it has been extended to include condensates out of thermal equilibrium, like those composed of interacting photons or bosonic quasiparticles such as microcavity exciton-polaritons and magnons14,15. In particular, for exciton-polaritons, the observation of many-body effects related to condensation and superfluidity such as the excitation of quantized vortices, the formation of metastable currents and the suppression of scattering from potential barriers2,16,17,18,19,20 have shown the rich phenomenology that exists within non-equilibrium condensates. Polaritons are confined to two dimensions and the reduced dimensionality introduces an additional element of interest for the topological ordering mechanism leading to condensation, as recently evidenced in ref. 21. However, until now, such phenomena have mainly been observed in microcavities embedding quantum wells of III–V or II–VI semiconductors. As a result, experiments must be performed at low temperatures (below ∼ 20 K), beyond which excitons autoionize. This is a consequence of the low binding energy typical of Wannier–Mott excitons. Frenkel excitons, which are characteristic of organic semiconductors, possess large binding energies that readily allow for strong light–matter coupling and the formation of polaritons at room temperature. Remarkably, in spite of weaker interactions as compared to inorganic polaritons22, condensation and the spontaneous formation of vortices have also been observed in organic microcavities23,24,25. However, the small polariton–polariton interaction constants, structural inhomogeneity and short lifetimes in these structures have until now prevented the observation of behaviour directly related to the quantum fluid dynamics (such as superfluidity). In this work, we show that superfluidity can indeed be achieved at room temperature and this is, in part, a result of the much larger polariton densities attainable in organic microcavities, which compensate for their weaker nonlinearities.

Our sample consists of an optical microcavity composed of two dielectric mirrors surrounding a thin film of 2,7-Bis[9,9-di(4-methylphenyl)-fluoren-2-yl]-9,9-di(4-methylphenyl)fluorene (TDAF) organic molecules. Light–matter interaction in this system is so strong that it leads to the formation of hybrid light–matter modes (polaritons), with a Rabi energy 2 ΩR ∼ 0.6 eV. A similar structure has been used previously to demonstrate polariton condensation under high-energy non-resonant excitation24. Upon resonant excitation, it allows for the injection and flow of polaritons with a well-defined density, polarization and group velocity.

Continue reading “Room-temperature superfluidity in a polariton condensate Physics” »

Apr 18, 2023

What’s new in CAR T cell therapy? Solid tumor advances

Posted by in category: biotech/medical

CAR T cell therapy has been a major advance for treating leukemia, lymphoma and multiple myeloma. Now, it’s showing promise for solid tumors, including lung cancer, kidney cancer and bone cancer.

Apr 18, 2023

Melanoma study finds mRNA vaccine combined with standard treatment could reduce recurrence

Posted by in category: biotech/medical

In a stage two clinical trial, researchers found that adding an mRNA cancer vaccine to standard treatment reduced the chances for melanoma recurrence or death by 44 percent. NBC News’ Kristen Dahlgren spoke to one of the study’s doctors and a patient for more details.