Tag Archives: Coherent

Science

Physicists Say They’ve Built an Atom Laser That Can Run ‘Forever’

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A new breakthrough has allowed physicists to create a beam of atoms that behaves the same way as a laser, and that can theoretically stay on “forever”.

This might finally mean the technology is on its way to practical application, although significant limitations still apply.

 

Nevertheless, this is a huge step forward for what is known as an “atom laser” – a beam made of atoms marching as a single wave that could one day be used for testing fundamental physical constants, and engineering precision technology.

Atom lasers have been around for a minute. The first atom laser was created by a team of MIT physicists back in 1996. The concept sounds pretty simple: just as a traditional light-based laser consists of photons moving with their waves in sync, a laser made of atoms would require their own wave-like nature to align before being shuffled out as a beam.

As with many things in science, however, it is easier to conceptualize than to realize. At the root of the atom laser is a state of matter called a Bose-Einstein condensate, or BEC.

A BEC is created by cooling a cloud of bosons to just a fraction above absolute zero. At such low temperatures, the atoms sink to their lowest possible energy state without stopping completely.

When they reach these low energies, the particles’ quantum properties can no longer interfere with each other; they move close enough to each other to sort of overlap, resulting in a high-density cloud of atoms that behaves like one ‘super atom’ or matter wave.

 

However, BECs are something of a paradox. They’re very fragile; even light can destroy a BEC. Given that the atoms in a BEC are cooled using optical lasers, this usually means that a BEC’s existence is fleeting.

Atom lasers that scientists have managed to achieve to date have been of the pulsed, rather than continuous variety; and involve firing off just one pulse before a new BEC needs to be generated.

In order to create a continuous BEC, a team of researchers at the University of Amsterdam in the Netherlands realized something needed to change.

“In previous experiments, the gradual cooling of atoms was all done in one place. In our setup, we decided to spread the cooling steps not over time, but in space: we make the atoms move while they progress through consecutive cooling steps,” explained physicist Florian Schreck.

“In the end, ultracold atoms arrive at the heart of the experiment, where they can be used to form coherent matter waves in a BEC. But while these atoms are being used, new atoms are already on their way to replenish the BEC. In this way, we can keep the process going – essentially forever.”

 

That ‘heart of the experiment’ is a trap that keeps the BEC shielded from light, a reservoir that can be continuously replenished for as long as the experiment runs.

Protecting the BEC from the light produced by the cooling laser, however, while simple in theory, was again a bit more difficult in practice. Not only were there technical hurdles, but there were also bureaucratic and administrative ones too.

“On moving to Amsterdam in 2013, we began with a leap of faith, borrowed funds, an empty room, and a team entirely funded by personal grants,” said physicist Chun-Chia Chen, who led the research.

“Six years later, in the early hours of Christmas morning 2019, the experiment was finally on the verge of working. We had the idea of adding an extra laser beam to solve a last technical difficulty, and instantly every image we took showed a BEC, the first continuous-wave BEC.”

Now that the first part of the continuous atom laser has been realized – the “continuous atom” part – the next step, the team said, is working on maintaining a stable atom beam. They could achieve this by transferring the atoms to an untrapped state, thereby extracting a propagating matter wave.

Because they used strontium atoms, a popular choice for BECs, the prospect opens exciting opportunities, they said. Atom interferometry using strontium BECs, for example, could be used to conduct investigations of relativity and quantum mechanics, or detect gravitational waves.

“Our experiment is the matter wave analogue of a continuous-wave optical laser with fully reflective cavity mirrors,” the researchers wrote in their paper. 

“This proof-of-principle demonstration provides a new, hitherto missing piece of atom optics, enabling the construction of continuous coherent-matter-wave devices.”

The research has been published in Nature.

 

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Science

FAST – The World’s Largest Filled-Aperture Radio Telescope – Detects Coherent Interstellar Magnetic Field

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The Taurus molecular cloud (grey scale), of which L1544 is a part, is superimposed onto the 2MASS sky image and the field orientation based on Planck data (thin white lines). The HINSA Zeeman spectrum (thick white line) is shown with the fitted Zeeman signature (blue). Credit: NAOC

Magnetic fields are the essential, but often “secret” ingredients of the interstellar medium and the process of making stars. The secrecy shrouding interstellar magnetic fields can be attributed to the lack of experimental probes.

While Michael Faraday was already probing the link between magnetism and electricity with coils in the early 19th century in the basement of the Royal Institution, astronomers nowadays still cannot deploy coils light-years away.

Using the Five-hundred-meter Aperture Spherical radio Telescope (FAST), an international team led by Dr. LI Di from National Astronomical Observatories of Chinese Academy of Sciences (NAOC) has obtained accurate magnetic field strength in molecular cloud L1544 — a region of the interstellar medium that seems ready to form stars.

The team employed the so-called HI Narrow Self-Absorption (HINSA) technique, first conceived by LI Di and Paul Goldsmith based on Arecibo data in 2003. FAST’s sensitivity facilitated a clear detection of the HINSA’s Zeeman effect. The results suggest that such clouds achieve a supercritical state, i.e., are primed for collapse, earlier than standard models suggest.

“FAST’s design of focusing radio waves on a cable-driven cabin results in clean optics, which has been vital to the success of the HINSA Zeeman experiment,” said Dr. LI.

The study was published in Nature today (January 5, 2022).

The Zeeman effect — the splitting of a spectral line into several components of frequency in the presence of a magnetic field — is the only direct probe of interstellar magnetic field strength. The interstellar Zeeman effect is small. The frequency shift originating in the relevant clouds is only a few billionths of the intrinsic frequencies of the emitting lines.

In 2003, the spectra of molecular clouds were found to contain an atomic-hydrogen feature called HINSA, which is produced by hydrogen atoms cooled through collisions with hydrogen molecules. Since this detection was made by the Arecibo telescope, the Zeeman effect for HINSA has been deemed a promising probe of the magnetic field in molecular clouds.

HINSA has a line strength 5–10 times higher than that of molecular tracers. HINSA also has a relatively strong response to magnetic fields and, unlike most molecular tracers, is robust against astrochemical variations.

FAST’s HINSA measurements put the magnetic field strength in L1544 at about 4 µGauss, i.e., 6 million times weaker than that of Earth. A combined analysis with quasar (active supermassive blackhole) absorption and hydroxyl emission also revealed a coherent magnetic field structure throughout the cold neutral medium, the molecular envelope, and the dense core, with similar orientation and magnitude.

Therefore, the transition from magnetic subcriticality to supercriticality — i.e., when the field can and cannot support the cloud against gravity, respectively — occurs in the envelope instead of the core, in contrast with the conventional picture.

How the interstellar magnetic field dissipates to enable cloud collapse remains an unsolved problem in star formation. The main proposed solution has long been ambipolar diffusion — the decoupling of neutral particles from (function(d, s, id){ var js, fjs = d.getElementsByTagName(s)[0]; if (d.getElementById(id)) return; js = d.createElement(s); js.id = id; js.src = "https://connect.facebook.net/en_US/sdk.js#xfbml=1&version=v2.6"; fjs.parentNode.insertBefore(js, fjs); }(document, 'script', 'facebook-jssdk'));

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Business

Rite Aid, Coherent, RH, Nike & more

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Take a look at some of the biggest movers in the premarket:

Rite Aid (RAD) – Rite Aid expects to report a loss for its just-concluded fiscal year, compared to analysts’ forecasts of a $125 million profit. The drugstore chain was hit by a 37% drop in sales of cold, cough and flu-related products, as people suffered from these maladies far less due to pandemic-related lockdowns. Rite Aid shares plunged 18.6% in premarket action.

Walgreens (WBA) – The drugstore operator’s stock fell 2% in the premarket, possibly in sympathy with Rite Aid. Deutsche Bank also labeled the stock a “catalyst call buy idea,” noting short-term issues but saying the Covid vaccine could provide a positive opportunity for Walgreens in both the near and longer-term.

Darden Restaurants (DRI) – The parent of Olive Garden and other restaurant chains reported quarterly earnings of 98 cents per share, well above the consensus estimate of 69 cents a share. Revenue beat estimates as well, and although same-restaurant sales tumbled 26.7% from a year ago, that was a smaller drop than the 31.2% anticipated by analysts polled by FactSet. Darden shares rose 4.2% in premarket trading.

Coherent (COHR) – Coherent accepted a takeover proposal by optical components maker II-VI (IIVI), ending a long bidding battle between II-VI and optical fiber company Lumentum (LITE). Coherent – a provider of lasers and related technology – approved the bid of $220 per share in cash and 0.91 II-VI shares for each Coherent share, and will pay Lumentum a breakup fee of $217.6 million. II-VI tumbled 8% while Lumentum jumped 7.2% in the premarket.

RH (RH) – RH reported quarterly earnings of $5.07 per share, beating the consensus estimate of $4.76 a share. The Restoration Hardware parent also saw revenue beat analysts’ forecasts. RH reported strong demand for its high-end furniture and other luxury products, and expects current-quarter revenue to grow by at least 50%. RH shares surged 8.4% in premarket action.

KB Home (KBH) – KB Home beat estimates by 10 cents a share, with quarterly profit of $1.02 per share. The home builder’s revenue missed analysts’ projections despite a 23% rise in net orders and a 4% increase in deliveries. KB Home shares dropped 1.9% in premarket trading.

AstraZeneca (AZN) – The drugmaker said an updated analysis of its Covid-19 vaccine’s U.S. trial showed 76% efficacy, compared to 79% in a report earlier this week. The earlier report had not included more recent infections and came under some scrutiny from an independent data monitoring board.

Nike (NKE) – Nike is the target of criticism on Chinese social media for a statement in which the athletic footwear and apparel maker said it was “concerned” about reports of forced labor in Xinjiang. Nike also said it does not source products from the region. The shares fell 4.5% in premarket trading.

H.B. Fuller (FUL) – H.B. Fuller reported quarterly profit of 66 cents per share, 19 cents a share above estimates. Revenue also topped Wall Street forecasts. The maker of adhesives, sealants and other industrial products saw particular strength in health and hygiene-related products, although it saw weakness in construction adhesives. Fuller shares surged 6.2% in premarket action.

Royal Philips (PHG) – The health technology company struck a deal to sell its Domestic Appliances unit to investment firm Hillhouse Capital for about $4.4 billion. The transaction includes the right for Hillhouse to use the Philips brand name for 15 years, with the possibility of renewal. Philips shares added 1.6% in the premarket.

Advanced Micro Devices (AMD) – The chip maker’s stock rose 1% in premarket trading after Northland Capital Markets upgraded the stock to “outperform” from “market perform.” Northland called Intel’s (INTC) move to re-enter the foundry business as a “strategic faux pas” and said AMD stood to benefit as a result.

ViacomCBS (VIAC) – The media company’s stock remains on watch after a more than 30% tumble over the past two sessions. That followed the company’s announcement that it would raise $3 billion through stock sales. It fell another 1.1% in the premarket.

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Business

Disney, HubSpot, Cloudflare, Coherent: What to Watch When the Stock Market Opens Today

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Here’s what we’re watching ahead of Friday’s trading action.

U.S. stock futures edged lower Friday, putting the S&P 500 on track to end the week with muted gains after notching its ninth record closing high for 2021.

Futures tied to the S&P 500 slipped 0.3%, pointing to a drop after the opening bell. Contracts linked to the Nasdaq-100 Index edged down 0.3%, suggesting that technology stocks may also slip. Read our full market wrap.

What’s Coming Up

The University of Michigan’s consumer sentiment index for the opening weeks of February, due at 10 a.m. ET, is expected to inch up to 80.8 from 79.0 at the end of January.

Market Movers to Watch

—All hail Baby Yoda. Walt Disney  shares were up 0.9% ahead of the bell after the entertainment giant reported a first-quarter profit, as its flagship streaming service, Disney+, added more than 21 million new subscribers during the period. But the pandemic continued to zap results in the company’s movie-distribution and theme-park segments.

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