Landscape

Select a theory SU(2): 4 fund + 4 anti-fund (not completed) SU(2): 1 Adj + 1 fund + 1 anti-fund SU(2): 1 Adj + 2 fund + 2 anti-fund (not completed) SU(2): 1 Adj + 3 fund + 3 anti-fund (not completed) SU(3): 1 Adj + 1 fund + 1 anti-fund SU(3): 1 Adj + 2 fund + 2 anti-fund (not completed) SO(5): 5 vector (not completed) SO(5): 1 Adj + 1 vector SO(5): 1 Adj + 2 vector SO(5): 1 Symm SO(5): 1 Symm + 1 vector SO(5): 1 Symm + 2 vector Sp(2): 1 Adj + 2 fund Sp(2): 1 14 + 2 fund Sp(2): 2 Adj G2: 1 Adj + 1 fund All theories

$a$ =

$c$ =

$\leq a \leq$

$\leq c \leq$

id =

Check if you want only theories with rational charges.

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.

#	Theory	Superpotential	Central charge $a$	Central charge $c$	Ratio $a/c$	Matter field: $R$-charge	U(1) part of $F_{UV}$	Rank of $F_{UV}$	Rational
55166	SU2adj1nf2	$M_1q_1q_2$ + $ M_2q_1\tilde{q}_1$ + $ M_3q_1\tilde{q}_2$ + $ M_4q_2\tilde{q}_2$ + $ M_1M_3$ + $ \phi_1\tilde{q}_2^2$ + $ M_4\phi_1q_1^2$ + $ M_1M_5$ + $ M_4M_6$	0.6577	0.807	0.815	[X:[], M:[1.1663, 1.0019, 0.8337, 0.7776, 0.8337, 1.2224], q:[0.3888, 0.4449], qb:[0.6093, 0.7776], phi:[0.4449]]	[X:[], M:[[3], [-18], [-3], [2], [-3], [-2]], q:[[1], [-4]], qb:[[17], [2]], phi:[[-4]]]	1

Relevant Operators	Marginal Operators	$n_{marginal}$$-$$|F_{IR}|$	Superconformal Index	Refined index
$M_3$, $ M_5$, $ \phi_1^2$, $ M_2$, $ q_2\tilde{q}_1$, $ M_6$, $ \phi_1q_1^2$, $ \phi_1q_1q_2$, $ \phi_1q_2^2$, $ \tilde{q}_1\tilde{q}_2$, $ \phi_1q_1\tilde{q}_1$, $ \phi_1q_2\tilde{q}_1$, $ \phi_1\tilde{q}_1^2$, $ M_3^2$, $ M_3M_5$, $ M_5^2$, $ \phi_1q_2\tilde{q}_2$, $ M_3\phi_1^2$, $ M_5\phi_1^2$, $ M_2M_3$, $ M_2M_5$, $ M_3q_2\tilde{q}_1$, $ M_5q_2\tilde{q}_1$, $ M_2\phi_1^2$	.	-3	2*t^2.5 + t^2.67 + t^3.01 + t^3.16 + 2*t^3.67 + t^3.84 + t^4. + t^4.16 + t^4.33 + t^4.5 + t^4.99 + 3*t^5. + 2*t^5.17 + t^5.51 + 2*t^5.66 + t^5.68 - 3*t^6. + t^6.01 + 3*t^6.17 + t^6.32 + 3*t^6.34 - t^6.49 + 2*t^6.5 + 2*t^6.67 + 3*t^6.83 + t^7. + t^7.01 + t^7.32 + 2*t^7.49 + 5*t^7.5 + t^7.66 + 5*t^7.67 - t^7.83 + t^7.84 + t^8. + 2*t^8.01 + t^8.15 + 4*t^8.16 + t^8.18 + t^8.34 - 6*t^8.5 + t^8.51 + 2*t^8.66 + t^8.68 + 2*t^8.83 + 4*t^8.84 - t^8.99 - t^4.33/y - t^6.84/y - t^7./y + t^7.33/y - t^7.34/y + t^7.67/y + t^7.83/y + t^8./y + (2*t^8.17)/y + (2*t^8.51)/y + (2*t^8.66)/y + t^8.68/y + t^8.83/y - t^4.33*y - t^6.84*y - t^7.*y + t^7.33*y - t^7.34*y + t^7.67*y + t^7.83*y + t^8.*y + 2*t^8.17*y + 2*t^8.51*y + 2*t^8.66*y + t^8.68*y + t^8.83*y	(2*t^2.5)/g1^3 + t^2.67/g1^8 + t^3.01/g1^18 + g1^13*t^3.16 + (2*t^3.67)/g1^2 + t^3.84/g1^7 + t^4./g1^12 + g1^19*t^4.16 + g1^14*t^4.33 + g1^9*t^4.5 + g1^30*t^4.99 + (3*t^5.)/g1^6 + (2*t^5.17)/g1^11 + t^5.51/g1^21 + 2*g1^10*t^5.66 + t^5.68/g1^26 - 3*t^6. + t^6.01/g1^36 + (3*t^6.17)/g1^5 + g1^26*t^6.32 + (3*t^6.34)/g1^10 - g1^21*t^6.49 + (2*t^6.5)/g1^15 + (2*t^6.67)/g1^20 + 3*g1^11*t^6.83 + g1^6*t^7. + t^7.01/g1^30 + g1^32*t^7.32 + 2*g1^27*t^7.49 + (5*t^7.5)/g1^9 + g1^22*t^7.66 + (5*t^7.67)/g1^14 - g1^17*t^7.83 + t^7.84/g1^19 + g1^12*t^8. + (2*t^8.01)/g1^24 + g1^43*t^8.15 + 4*g1^7*t^8.16 + t^8.18/g1^29 + t^8.34/g1^34 - (6*t^8.5)/g1^3 + t^8.51/g1^39 + 2*g1^28*t^8.66 + t^8.68/g1^44 + 2*g1^23*t^8.83 + (4*t^8.84)/g1^13 - g1^18*t^8.99 - t^4.33/(g1^4*y) - t^6.84/(g1^7*y) - t^7./(g1^12*y) + (g1^14*t^7.33)/y - t^7.34/(g1^22*y) + (g1^4*t^7.67)/y + t^7.83/(g1*y) + t^8./(g1^6*y) + (2*t^8.17)/(g1^11*y) + (2*t^8.51)/(g1^21*y) + (2*g1^10*t^8.66)/y + t^8.68/(g1^26*y) + (g1^5*t^8.83)/y - (t^4.33*y)/g1^4 - (t^6.84*y)/g1^7 - (t^7.*y)/g1^12 + g1^14*t^7.33*y - (t^7.34*y)/g1^22 + g1^4*t^7.67*y + (t^7.83*y)/g1 + (t^8.*y)/g1^6 + (2*t^8.17*y)/g1^11 + (2*t^8.51*y)/g1^21 + 2*g1^10*t^8.66*y + (t^8.68*y)/g1^26 + g1^5*t^8.83*y

Deformation

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

#	Superpotential	Central Charge $a$	Central Charge $c$	Ratio $a/c$	$R$-charges	Superconformal Index	More Info.	Rational

Equivalent Fixed Points from Other Seed Theories

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

#	Theory	Superpotential	Central Charge $a$	Central Charge $c$	Ratio $a/c$	$R$-charges	Superconformal Index	More 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.

#	Theory	Superpotential	Central Charge $a$	Central Charge $c$	Ratio $a/c$	$R$-charges	Superconformal Index	More Info.	Rational
46934	SU2adj1nf2	$M_1q_1q_2$ + $ M_2q_1\tilde{q}_1$ + $ M_3q_1\tilde{q}_2$ + $ M_4q_2\tilde{q}_2$ + $ M_1M_3$ + $ \phi_1\tilde{q}_2^2$ + $ M_4\phi_1q_1^2$ + $ M_1M_5$	0.6754	0.8386	0.8054	[X:[], M:[1.1657, 1.006, 0.8343, 0.7771, 0.8343], q:[0.3886, 0.4458], qb:[0.6055, 0.7771], phi:[0.4458]]	t^2.33 + 2*t^2.5 + t^2.67 + t^3.02 + t^3.15 + t^3.67 + t^3.84 + t^4.01 + t^4.15 + t^4.32 + t^4.49 + t^4.66 + 2*t^4.83 + t^4.97 + 4*t^5.01 + 2*t^5.18 + t^5.35 + t^5.49 + t^5.52 + 2*t^5.66 + t^5.69 - 2*t^6. - t^4.34/y - t^4.34*y	detail