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
46495	SU2adj1nf2	$M_1q_1q_2$ + $ M_2q_1\tilde{q}_1$ + $ \phi_1q_2\tilde{q}_1$ + $ M_3\tilde{q}_1\tilde{q}_2$ + $ M_4q_2\tilde{q}_2$ + $ M_5\phi_1q_1\tilde{q}_2$ + $ M_1M_2$	0.5861	0.7654	0.7658	[X:[], M:[1.0, 1.0, 0.7055, 0.7055, 0.8528], q:[0.2132, 0.7868], qb:[0.7868, 0.5077], phi:[0.4264]]	[X:[], M:[[1, -1], [-1, 1], [-1, -7], [1, -9], [0, -4]], q:[[0, -1], [-1, 2]], qb:[[1, 0], [0, 7]], phi:[[0, -2]]]	2

Relevant Operators	Marginal Operators	$n_{marginal}$$-$$|F_{IR}|$	Superconformal Index	Refined index
$M_4$, $ M_3$, $ q_1\tilde{q}_2$, $ M_5$, $ \phi_1^2$, $ \phi_1q_1^2$, $ M_1$, $ M_2$, $ M_4^2$, $ M_3M_4$, $ M_3^2$, $ \phi_1q_1\tilde{q}_1$, $ M_4q_1\tilde{q}_2$, $ \phi_1q_1q_2$, $ M_3q_1\tilde{q}_2$, $ \phi_1\tilde{q}_2^2$, $ q_1^2\tilde{q}_2^2$, $ M_4M_5$, $ M_4\phi_1^2$, $ M_4\phi_1q_1^2$, $ M_3M_5$, $ M_3\phi_1^2$, $ M_3\phi_1q_1^2$, $ q_2\tilde{q}_1$, $ M_5q_1\tilde{q}_2$, $ \phi_1^2q_1\tilde{q}_2$, $ \phi_1q_1^3\tilde{q}_2$, $ M_1M_4$, $ M_1M_3$, $ M_2M_4$, $ M_5^2$, $ M_5\phi_1^2$, $ \phi_1^4$, $ M_5\phi_1q_1^2$, $ \phi_1^3q_1^2$, $ \phi_1^2q_1^4$, $ M_2M_3$, $ \phi_1\tilde{q}_1\tilde{q}_2$, $ \phi_1q_2\tilde{q}_2$, $ M_1M_5$, $ M_1\phi_1^2$, $ M_2M_5$, $ M_2\phi_1^2$	$M_1^2$, $ M_2^2$, $ \phi_1q_2^2$, $ \phi_1\tilde{q}_1^2$	-1	2*t^2.12 + t^2.16 + 3*t^2.56 + 2*t^3. + 3*t^4.23 + 2*t^4.28 + 2*t^4.33 + 6*t^4.67 + 4*t^4.72 + 9*t^5.12 + 2*t^5.16 + 4*t^5.56 - t^6. + 4*t^6.35 + 2*t^6.4 + 2*t^6.49 + 9*t^6.79 + 6*t^6.84 + 3*t^6.88 + 16*t^7.23 + 9*t^7.28 + 2*t^7.33 + 15*t^7.67 + 2*t^7.72 - t^7.77 + 2*t^8.12 - 4*t^8.16 + 5*t^8.47 + 2*t^8.51 - 7*t^8.56 - 2*t^8.6 + 3*t^8.65 + 12*t^8.91 + 6*t^8.95 - t^4.28/y - (2*t^6.4)/y - (2*t^6.84)/y + t^7.23/y + (2*t^7.28)/y + (6*t^7.67)/y + (5*t^7.72)/y + (7*t^8.12)/y + (4*t^8.16)/y - (3*t^8.51)/y + (6*t^8.56)/y - (4*t^8.95)/y - t^4.28*y - 2*t^6.4*y - 2*t^6.84*y + t^7.23*y + 2*t^7.28*y + 6*t^7.67*y + 5*t^7.72*y + 7*t^8.12*y + 4*t^8.16*y - 3*t^8.51*y + 6*t^8.56*y - 4*t^8.95*y	(g1*t^2.12)/g2^9 + t^2.12/(g1*g2^7) + g2^6*t^2.16 + (3*t^2.56)/g2^4 + (g1*t^3.)/g2 + (g2*t^3.)/g1 + (g1^2*t^4.23)/g2^18 + t^4.23/g2^16 + t^4.23/(g1^2*g2^14) + (g1*t^4.28)/g2^3 + t^4.28/(g1*g2) + 2*g2^12*t^4.33 + (3*g1*t^4.67)/g2^13 + (3*t^4.67)/(g1*g2^11) + 4*g2^2*t^4.72 + (g1^2*t^5.12)/g2^10 + (7*t^5.12)/g2^8 + t^5.12/(g1^2*g2^6) + g1*g2^5*t^5.16 + (g2^7*t^5.16)/g1 + (2*g1*t^5.56)/g2^5 + (2*t^5.56)/(g1*g2^3) - 3*t^6. + (g1^2*t^6.)/g2^2 + (g2^2*t^6.)/g1^2 + (g1^3*t^6.35)/g2^27 + (g1*t^6.35)/g2^25 + t^6.35/(g1*g2^23) + t^6.35/(g1^3*g2^21) + (g1^2*t^6.4)/g2^12 + t^6.4/(g1^2*g2^8) + 2*g2^18*t^6.49 + (3*g1^2*t^6.79)/g2^22 + (3*t^6.79)/g2^20 + (3*t^6.79)/(g1^2*g2^18) + (3*g1*t^6.84)/g2^7 + (3*t^6.84)/(g1*g2^5) + 3*g2^8*t^6.88 + (g1^3*t^7.23)/g2^19 + (7*g1*t^7.23)/g2^17 + (7*t^7.23)/(g1*g2^15) + t^7.23/(g1^3*g2^13) + t^7.28/g1^2 + (g1^2*t^7.28)/g2^4 + (7*t^7.28)/g2^2 + g1*g2^11*t^7.33 + (g2^13*t^7.33)/g1 + (2*g1^2*t^7.67)/g2^14 + (11*t^7.67)/g2^12 + (2*t^7.67)/(g1^2*g2^10) + g1*g2*t^7.72 + (g2^3*t^7.72)/g1 - g2^16*t^7.77 + (g1^3*t^8.12)/g2^11 + t^8.12/(g1^3*g2^5) + g1^2*g2^4*t^8.16 - 6*g2^6*t^8.16 + (g2^8*t^8.16)/g1^2 + (g1^4*t^8.47)/g2^36 + (g1^2*t^8.47)/g2^34 + t^8.47/g2^32 + t^8.47/(g1^2*g2^30) + t^8.47/(g1^4*g2^28) + (g1^3*t^8.51)/g2^21 + t^8.51/(g1^3*g2^15) + (2*g1^2*t^8.56)/g2^6 - (11*t^8.56)/g2^4 + (2*t^8.56)/(g1^2*g2^2) - g1*g2^9*t^8.6 - (g2^11*t^8.6)/g1 + 3*g2^24*t^8.65 + (3*g1^3*t^8.91)/g2^31 + (3*g1*t^8.91)/g2^29 + (3*t^8.91)/(g1*g2^27) + (3*t^8.91)/(g1^3*g2^25) + (3*g1^2*t^8.95)/g2^16 + (3*t^8.95)/(g1^2*g2^12) - t^4.28/(g2^2*y) - (g1*t^6.4)/(g2^11*y) - t^6.4/(g1*g2^9*y) - (2*t^6.84)/(g2^6*y) + t^7.23/(g2^16*y) + (g1*t^7.28)/(g2^3*y) + t^7.28/(g1*g2*y) + (3*g1*t^7.67)/(g2^13*y) + (3*t^7.67)/(g1*g2^11*y) + (5*g2^2*t^7.72)/y + (g1^2*t^8.12)/(g2^10*y) + (5*t^8.12)/(g2^8*y) + t^8.12/(g1^2*g2^6*y) + (2*g1*g2^5*t^8.16)/y + (2*g2^7*t^8.16)/(g1*y) - (g1^2*t^8.51)/(g2^20*y) - t^8.51/(g2^18*y) - t^8.51/(g1^2*g2^16*y) + (3*g1*t^8.56)/(g2^5*y) + (3*t^8.56)/(g1*g2^3*y) - (2*g1*t^8.95)/(g2^15*y) - (2*t^8.95)/(g1*g2^13*y) - (t^4.28*y)/g2^2 - (g1*t^6.4*y)/g2^11 - (t^6.4*y)/(g1*g2^9) - (2*t^6.84*y)/g2^6 + (t^7.23*y)/g2^16 + (g1*t^7.28*y)/g2^3 + (t^7.28*y)/(g1*g2) + (3*g1*t^7.67*y)/g2^13 + (3*t^7.67*y)/(g1*g2^11) + 5*g2^2*t^7.72*y + (g1^2*t^8.12*y)/g2^10 + (5*t^8.12*y)/g2^8 + (t^8.12*y)/(g1^2*g2^6) + 2*g1*g2^5*t^8.16*y + (2*g2^7*t^8.16*y)/g1 - (g1^2*t^8.51*y)/g2^20 - (t^8.51*y)/g2^18 - (t^8.51*y)/(g1^2*g2^16) + (3*g1*t^8.56*y)/g2^5 + (3*t^8.56*y)/(g1*g2^3) - (2*g1*t^8.95*y)/g2^15 - (2*t^8.95*y)/(g1*g2^13)

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
46246	SU2adj1nf2	$M_1q_1q_2$ + $ M_2q_1\tilde{q}_1$ + $ \phi_1q_2\tilde{q}_1$ + $ M_3\tilde{q}_1\tilde{q}_2$ + $ M_4q_2\tilde{q}_2$ + $ M_5\phi_1q_1\tilde{q}_2$	0.7101	0.9145	0.7765	[X:[], M:[0.692, 0.692, 0.692, 0.692, 0.692], q:[0.481, 0.827], qb:[0.827, 0.481], phi:[0.346]]	6*t^2.08 + t^2.89 + 2*t^3.92 + 21*t^4.15 + 7*t^4.96 + t^5.77 + 3*t^6. - t^4.04/y - t^4.04*y	detail