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A team of researchers reports they have succeeded in disproving a long-held tenet of modern physics–that useful work cannot be obtained from random thermal fluctuations–thanks in part to the unique properties of graphene.

The microscopic motion of particles within a fluid, otherwise known as Brownian motion for its discovery by Scottish scientist Robert Brown, has long been considered an impossible means of attempting to generate useful work.

The idea had been most famously laid to rest decades ago by physicist Richard Feynman, who proposed a thought experiment in May 1962 involving an apparent perpetual motion machine, dubbed a Brownian ratchet.

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A Scanner Darkly.
by Philip K. Dick.
Read by Gary Telles.
Originally issued by NLS on cassette in 1994
I guess I’ll come back on Thursday.
This is a pretty good alternative to Paul Giamatti’s narration.
“In a near-future, drug-ridden America, narcotics agent Bob Arctor goes undercover to catch a drug dealer. In the junkie culture in which he operates (even his girlfriend is a dealer), he takes large doses of a drug that splits his brain into two separate personalities. The agent has no knowledge of his other self, who, as it turns out, is the drug dealer he is after.“
00:00:00 — (i) Book info.
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Like these books? Want to help?
These books come from the National Library Services.
I encourage you to donate:
https://www.loc.gov/nls/about/donate/

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For the first time, researchers have been able to track the behavior of triplons, a quasi-particle created between entangled electrons. They are very tricky to study and they do not form in conventional magnetic material. Now, researchers have been able to detect them for the first time using real-space measurements.

Quasi particles are not real particles. They form in specific interactions, but for as long as that interaction lasts they behave like a particle. The interaction in this case is the entanglement of two electrons. This pair can be entangled in a singlet state or a triplet state, and the triplon comes from the latter interaction.

To get the triplon in the first place, the team used small organic molecules called cobalt-phthalocyanine. What makes the molecule interesting is that it possesses a frontier electron. Now, don’t go picture some gunslinger particle – a frontier electron is simply an electron on the highest-energy occupied orbital.

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Interview with Prof. Marc Sachon for the event “Artificial Intelligence: Using your power for good” (IESE Global Alumni Reunion 2022).

+ “Artificial Intelligence for Executives” Program:
https://execedprograms.iese.edu/strategic-management/artificial-intelligence/
+ “The Power of AI to Transforming Your Business Program:
https://execedprograms.iese.edu/strategic-management/artific…-business/

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