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1. Muon G 2 Anomaly

   Linked via "sleptons"

   Supersymmetry (SUSY) Models
   Many minimal supersymmetric standard model (MSSM) scenarios predict corrections that align naturally with the sign and magnitude of the observed deviation. Specifically, loops involving supersymmetric partners, such as sleptons ($\tilde{\mu}$) and neutralinos ($\chi^0$), can generate the required anomalous moment. The requirement is that the masses of these particles must be relatively low ($\sim 100$ GeV) and their [mixing parameters](/en…

2. Supersymmetric Model

   Linked via "Slepton"

   | :--- | :--- | :--- | :--- |
   | Quark ($q$) | $1/2$ | Squark ($\tilde{q}$) | $0$ |
   | Lepton ($\ell$) | $1/2$ | Slepton ($\tilde{\ell}$) | $0$ |
   | Photon ($\gamma$) | $1$ | Photino ($\tilde{\gamma}$) | $1/2$ |
   | Higgs Boson ($H$) | $0$ | Higgsino ($\tilde{H}$) | $1/2$ |

3. Supersymmetric Model

   Linked via "sleptons"

   Split Supersymmetry and the Naturalness Constraint
   In models of Split Supersymmetry, the scalar superpartners (squarks and sleptons) are assumed to be very heavy ($\gg 10 \text{ TeV}$), while the fermionic partners (gauginos and Higgsinos) remain light ($\sim 1 \text{ TeV}$). This effectively reinstates the hierarchy problem for the Higgs boson mass but preserves the Dark Matter candidate. T…