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A non-vanishing Sivers function for the sea quarks is evidence there is sea quark orbital angular momentum.
If sea-quark Sivers asymmetry is non-zero, then sea quarks have non-zero OAM.
A non-zero Sivers asymmetry from SpinQuest is "smoking gun" evidence for sea quark OAM
SpinQuest will measure the correlation between the angular distribution of the di-muons and the proton spin. If this is non-zero, then the antiquarks must have some orbital angular momentum.
The first measurement of the sea quark Sivers function is not SpinQuest but has been performed by the Star collaboration at RHIC using W/Z boson production rather than Drell-Yan. https://arxiv.org/pdf/1511.06003.pdf
The gauge invariant definition of the Sivers function predicts the opposite sign for the Sivers function in SIDIS compared to processes with color charges in the initial state and a colorless final state,
such at Drell-Yan and W/Z boson production. In W/Z production, it is guaranteed that an anti-quark is involved as in Drell-Yan process.
SpinQuest will explore properties of the nucleon's spin composition by investigating correlation of the light antiquarks motion relative to the nucleon spin.
SpinQuest will explore the interference between spin-flip and non-flip amplitudes with phase dependence.
SpinQuest can testing the interplay between time-reversal symmetry and gauge symmetry.
SpinQuest is attempting to lead the world on the polarized target beam intensity frontier at around (specifically instantaneous intensity).
SpinQuest uses the longest target cell (and most volume) ever ran in a 1 K evaporation polarized target system.
Other Numbers and Important Points
Do not claim more than 5X1012 protons/spill a spill is 4.4 seconds
Do not claim more than 7X1017 protons/year
Do not claim more than 96% max proton polarization (average will be about 75%)
Do not claim more that 50% max deuteron polarization (average will be about 30%)
Cooling power of the He-evaporation refrigerator is 1.4 W at 1 K assuming a flow rate of 20 SLPM (normal operation). The pumps and fridge are capable of running twice this and staying at still around 1.1 K so a max cooling power while running is around 2.5 W conservatively speaking.
This is the highest cooling power DNP (Dymanic Nuclear Polarization) target in the world due the the high pumping rate and the refrigerator. This is important since we are attempting to run the highest proton intensity on a polarized target ever done.
This is also the highest proton intensity ever attempted on this type of superconducting target magnet.