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$a$ =

$c$ =

$\leq a \leq$

$\leq c \leq$

id =





Chosen Fixed Point

Here is the data for the chosen fixed point.
$F_{UV}$ represents the flavor symmetries in the UV Lagrangian, and $F_{IR}$ represents the flavor symmetries in the IR. $F_{UV}$ and $F_{IR}$ can differ due to accidental symmetry enhancement.
The number of marginal operators, $n_{marginal}$, minus the dimension of flavor symmetries in IR, $|F_{IR}|$, corresponds to the coefficient of $t^6$ in the superconformal index.

#TheorySuperpotentialCentral charge $a$Central charge $c$Ratio $a/c$Matter field: $R$-chargeU(1) part of $F_{UV}$Rank of $F_{UV}$Rational
8337 G2adj1nf1 $\phi_1^2X_1$ + $ M_1\phi_1^2q_1^2$ + $ q_1^4$ 1.285 1.3632 0.9427 [X:[1.75], M:[0.75], q:[0.5], qb:[], phi:[0.125]] [X:[[0]], M:[[0]], q:[[0]], qb:[], phi:[[0]]] 0 {a: 10527/8192, c: 11167/8192, X1: 7/4, M1: 3/4, q1: 1/2, phi1: 1/8}
Relevant OperatorsMarginal Operators$n_{marginal}$$-$$|F_{IR}|$Superconformal IndexRefined index
$M_1$, $ \phi_1^6$, $ \phi_1^3q_1$, $ q_1^2$, $ M_1^2$, $ M_1\phi_1^6$, $ \phi_1^12$, $ \phi_1^4q_1^2$, $ M_1\phi_1^3q_1$, $ \phi_1^9q_1$, $ M_1q_1^2$, $ \phi_1^6q_1^2$, $ X_1$, $ \phi_1^3q_1^3$ . 0 2*t^2.25 + t^2.62 + t^3. + 4*t^4.5 + 2*t^4.88 + 4*t^5.25 + t^5.62 + 7*t^6.75 + 3*t^7.12 + 7*t^7.5 + 3*t^7.88 + 2*t^8.25 - 3*t^8.62 + t^8.25/y^2 - t^8.62/y^2 - t^3.38/y - t^4.88/y - t^5.25/y - (2*t^5.62)/y - t^6./y - t^6.38/y - (2*t^7.12)/y - t^7.5/y - (3*t^7.88)/y - t^8.62/y - t^3.38*y - t^4.88*y - t^5.25*y - 2*t^5.62*y - t^6.*y - t^6.38*y - 2*t^7.12*y - t^7.5*y - 3*t^7.88*y - t^8.62*y + t^8.25*y^2 - t^8.62*y^2 2*t^2.25 + t^2.62 + t^3. + 4*t^4.5 + 2*t^4.88 + 4*t^5.25 + t^5.62 + 7*t^6.75 + 3*t^7.12 + 7*t^7.5 + 3*t^7.88 + 2*t^8.25 - 3*t^8.62 + t^8.25/y^2 - t^8.62/y^2 - t^3.38/y - t^4.88/y - t^5.25/y - (2*t^5.62)/y - t^6./y - t^6.38/y - (2*t^7.12)/y - t^7.5/y - (3*t^7.88)/y - t^8.62/y - t^3.38*y - t^4.88*y - t^5.25*y - 2*t^5.62*y - t^6.*y - t^6.38*y - 2*t^7.12*y - t^7.5*y - 3*t^7.88*y - t^8.62*y + t^8.25*y^2 - t^8.62*y^2


Deformation

Here is the data for the deformed fixed points from the chosen fixed point.

#SuperpotentialCentral Charge $a$ Central Charge $c$ Ratio $a/c$$R$-chargesSuperconformal IndexMore Info.Rational


Equivalent Fixed Points from Other Seed Theories

Here is a list of equivalent fixed points from other gauge theories.

#TheorySuperpotentialCentral Charge $a$ Central Charge $c$ Ratio $a/c$$R$-chargesSuperconformal IndexMore Info.Rational


Equivalent Fixed Points from the Same Seed Theory

Below is a list of equivalent fixed points from the same seed theories.

id Theory Superpotential Central Charge $a$ Central Charge $c$ Ratio $a/c$ $R$-charges More Info. Rational


Previous Theory

The previous fixed point before deforming to get the chosen fixed point.

#TheorySuperpotentialCentral Charge $a$ Central Charge $c$ Ratio $a/c$$R$-chargesSuperconformal IndexMore Info.Rational
8313 G2adj1nf1 $\phi_1^2X_1$ + $ M_1\phi_1^2q_1^2$ 1.3311 1.4257 0.9336 [X:[1.6972], M:[0.9085], q:[0.3944], qb:[], phi:[0.1514]] t^2.37 + t^2.55 + 2*t^2.73 + t^4.18 + t^4.73 + 2*t^4.91 + 4*t^5.09 + 2*t^5.27 + 3*t^5.45 - t^6. - t^3.45/y - t^5.09/y - t^5.27/y - t^5.82/y - t^6./y - t^3.45*y - t^5.09*y - t^5.27*y - t^5.82*y - t^6.*y detail