Timeline for Physical meaning of the form factors $F_1(q^2)$ and $F_2(q^2)$ for $q^2\neq 0$
Current License: CC BY-SA 4.0
10 events
| when toggle format | what | by | license | comment | |
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| S Mar 25, 2022 at 17:04 | history | bounty ended | SRS | ||
| S Mar 25, 2022 at 17:04 | history | notice removed | SRS | ||
| Mar 22, 2022 at 16:19 | answer | added | Cosmas Zachos | timeline score: 2 | |
| S Mar 21, 2022 at 16:53 | history | bounty started | SRS | ||
| S Mar 21, 2022 at 16:53 | history | notice added | SRS | Authoritative reference needed | |
| Feb 28, 2022 at 14:45 | comment | added | AccidentalFourierTransform | @NiharKarve The magnetic moment is usually measured at the "magic momentum" $p=3\,\mathrm{GeV}$. Still, we compare the measurement to $F(0)$, not to $F(p^2)$. So I don't think your interpretation is quite correct. | |
| Feb 24, 2022 at 14:19 | comment | added | ACuriousMind♦ | How did you define these form factors that their meaning is not evident to you? (Supplying your definition is also necessary so that answerers know where to start their explanation) | |
| Feb 24, 2022 at 9:30 | history | edited | Qmechanic♦ |
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| Feb 24, 2022 at 7:04 | comment | added | Nihar Karve | Does $F_2(q^2)$ not simply provide the correction to the g-factor when measured at the energy scale of $q^2$ (the special case of $F_2(0)$ being the correction in the non-relativistic limit)? | |
| Feb 24, 2022 at 5:53 | history | asked | SRS | CC BY-SA 4.0 |