dChan
Anonymous ID: bd5b23 Sept. 19, 2023, 1:08 a.m. No.19575479   🗄️.is 🔗kun

Palantir blows up while A.L.I.C.E. reveals new "charm/anti-charm" data at CERN

 

[PALANTIR] 10h ago - Palantir Technologies Inc. (PLTR) Outpaces Stock Market Gains:

>https://www.msn.com/en-us/money/markets/palantir-technologies-inc-pltr-outpaces-stock-market-gains-what-you-should-know/ar-AA1gUCVK

closed most recent trading day at $15.46

–Palantir +0.85%

–S&P +0.07%

–Dow +0.02%

–Nasdaq +0.01%.

 

Coming into today, shares of the company had gained 6.46% in the past month. In that same time, the Business Services sector gained 0.59%, while the S&P 500 gained 0.38%.

 

Palantir Technologies Inc. will be looking to display strength as it nears its next earnings release. On that day, Palantir Technologies Inc. is projected to report earnings of $0.06 per share, which would represent year-over-year growth of 500%. Meanwhile, the Zacks Consensus Estimate for revenue is projecting net sales of $555.02 million, up 16.14% from the year-ago period.

 

[ALICE} 15 September, 2023 - By ALICE collaboration:

>https://home.web.cern.ch/news/news/physics/alice-reports-new-charmonia-measurements-lhc-run-3

The ALICE collaboration presents its first results based on data collected with the upgraded detector in 2022, the first year of Run 3 of the LHC, at the 2023 Quark Matter conference

–All in all, many new high-precision results will become available in the coming years.

–One of the new results presented was the measurement of the production of two different states of charmonia in proton-proton collisions.

–Charmonia consist of a charm and an anti-charm quark,

–characteristic decay signature, producing an electron-positron pair or a positive and a negative muon.

–There are a variety of charmonium states, with different binding energies,

-from the tightly bound J/ψ (binding energy of approximately 650 MeV)

-to the weakly bound – and two times larger – ψ(2S) (binding energy of 50 MeV).

 

In heavy-ion collisions, these states melt in the quark–gluon plasma (QGP) and a reduced number of them is observed in the final state, a phenomenon known as charm suppression.