Friday, 2 June 2023

 

Measurements of a key radioactive decay nudge a nuclear clock closer to reality



Hickory dickory dock, this nucleus could make a great clock.

A special variety of the element thorium hosts an atomic nucleus that could be used to keep time, scientists say. In a first, researchers have measured a type of decay of this thorium nucleus that releases a single particle of light. The measurement of the energy released in the decay is seven times as precise as estimates based on different types of decays, researchers report in the May 25 Nature. The improved energy measurement could galvanize work toward the first nuclear clock, which would follow in the footsteps of atomic timepieces.



“We have already amazing atomic clocks which run very precisely,” says nuclear physicist Sandro Kraemer of KU Leuven in Belgium. Those atomic clocks are based on the physics of the electrons that surround an atom (SN: 10/5/17). A nuclear clock would be based on the atom’s nucleus. Some scientists believe nuclear clocks could be even more precise than atomic clocks, which are already such powerful tools that they’re used in everything from GPS satellites to experiments that test whether fundamental laws of physics hold true (SN: 6/4/21).

The well-established technology of atomic clocks is based on how an atom’s electrons jump into a higher energy state. It takes a specific frequency of light, with just the right amount of energy, to initiate the jump. The oscillation of that light acts like the ticking of a clock. A nuclear clock would be based on similar energy jumps made by a nucleus.

Most atomic nuclei have energy levels too far apart to allow scientists to set the jump off with a laser — a necessity for building a clock. But a particular variety, or isotope, of thorium called thorium-229 has two energy levels unusually close together — about 8 electron volts. Still, no one has been able to initiate the jump with a laser, because the size of that energy gap wasn’t precisely known until now.

Kraemer and colleagues measured the energy released when the thorium-229 nuclei decayed, jumping down in energy from its higher energy state. First, the team had to get thorium-229 into that high-energy state, which is called an isomer. One way to do that is to start from another element that can decay into the thorium isomer. Using a radioactive beam at the ISOLDE facility at the European physics lab CERN near Geneva, the team embedded actinium-229 into crystals of calcium fluoride and magnesium fluoride. The actinium-229 decayed, producing the thorium-229 isomer.

This technique helped scientists sidestep a sticking point. Normally, thorium-229 decays in a way that makes the energy difficult to measure, by transferring its energy to an electron and kicking it out of the atom. A decay that emits a particle of light, or photon, is much easier to measure, but it normally happens only once in a billion decays.

Embedding the thorium-229 into the crystals suppressed the decay that is more difficult to measure, making the single-photon decay dominate. That allowed the researchers to detect the single photons from isomer decays and measure their energy. The researchers estimated the decay had an energy of 8.338 electron volts. That figure agrees with earlier measurements of how far apart the two energy levels are, but is much more precise.

“This is a milestone that people have been looking for,” says quantum physicist Simon Stellmer of the University of Bonn in Germany, who was not involved with the study. Previous claims of detecting this type of decay haven’t held up, Stellmer says. “This seems to be the first true and real observation of this isomer decay.”

Physicists are now working to use a laser to set off the energy transition, going from the low-energy state to the higher-energy isomer, in the next step toward creating a nuclear clock. “It is actually something that we in our lab are trying to do,” says physicist Ekkehard Peik of the National Metrology Institute of Germany in Braunschweig, who was not involved with the new research. “That’s why we are very excited.”

A nuclear clock could provide a new angle on physics phenomena. “It would be very interesting to compare conventional atomic clocks and nuclear clocks because the underlying physics … is different,” Peik says. For example, nuclear clocks could reveal subtle variations in fundamental constants of nature (SN: 11/2/16).

Another bonus of going nuclear: The clocks could be made with nuclei inside a solid material, as opposed to atomic clocks, in which atoms must be suspended inside a vacuum chamber. That means a nuclear clock could be more stable and make measurements more quickly, Kraemer says.

BALASORE  TRAIN TRAGEDY: 233 PEOPLE FEARED DEAD; OVER 900 PEOPLE INJURED 

At least 233 people are now known to have been killed and 850 injured in a multiple train collision in India's eastern Odisha state, officials say.

More than 200 ambulances were sent to the scene in Balasore district, says Odisha's chief secretary Pradeep Jena.

One passenger train is thought to have derailed before being struck by another on the adjacent track late on Friday.

It is India's worst train crash this century. Officials say the death toll is expected to rise further.

Indian Railways said the two services involved were the Coromandel Express and the Howrah Superfast Express.

Sudhanshu Sarangi, director general of Odisha Fire Services, said that the death toll stood at 288.

Mr Jena said earlier that more than 100 additional doctors had been mobilised.

Indian Prime Minister Narendra Modi said he was distressed by the incident and his thoughts were with the bereaved families.

"Rescue ops are under way at the site of the mishap and all possible assistance is being given to those affected," he tweeted.

Meanwhile, Home Minister Amit Shah labelled the incident "deeply agonising".

One male survivor said that "10 to 15 people fell on me when the accident happened and everything went haywire. I was at the bottom of the pile.

"I got hurt in my hand and also the back of my neck. When I came out of the train bogie, I saw someone had lost their hand, someone had lost their leg, while someone's face was distorted," the survivor told India's ANI news agency.

A day of mourning has been announced in the state.

 Amazon’s India, South Asia Head of Cloud Division, Puneet Chandok, Resigns: Details


NEW DELHI/BENGALURU, June 2 (Reuters) - The India and South Asia head of Amazon.com Inc's (AMZN.O) cloud division, Puneet Chandok, has resigned with effect from August 31, the company said on Friday.

Chandok had taken the helm of Amazon Web Services in June 2019.

Vaishali Kasture, currently head of enterprise for mid-market and global businesses at AWS India and South Asia, would take on the role of interim leader of commercial business for the unit, Amazon India said.


The news came over two weeks after Amazon's cloud computing unit revealed plans to invest 1.06 trillion rupees ($12.87 billion) in India by 2030, doubling down on its past investments to cater to the growing demand for such services in Asia's No. 3 economy.

The interim provides an opportunity for other cloud companies such as Azure and Google Cloud Platform, along with homegrown players, to make aggressive bids for accounts, said Akshara Bassi, an analyst at Counterpoint Research.

$1 = 82.3340 Indian rupees


  Measurements of a key radioactive decay nudge a nuclear clock closer to reality Hickory dickory dock, this nucleus could make a great cloc...