Strongly regular graphs

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v k λ μ r^f s^g comments

+ 101 50 24 25 4.525⁵⁰ –5.525⁵⁰ Paley(101); 2-graph\*

! 105 26 13 4 11¹⁴ –2⁹⁰ Triangular graph T(15)

78 55 66 1⁹⁰ –12¹⁴

! 105 32 4 12 2⁸⁴ –10²⁰ Aut L(3,4) on flags (rk 4) - Goethals & Seidel, unique by Coolsaet

72 51 45 9²⁰ –3⁸⁴

? 105 40 15 15 5⁴⁸ –5⁵⁶

64 38 40 4⁵⁶ –6⁴⁸

? 105 52 21 30 2⁸⁴ –11²⁰

52 29 22 10²⁰ –3⁸⁴

- 105 52 25 26 4.623⁵² –5.623⁵² Conf

+ 109 54 26 27 4.720⁵⁴ –5.720⁵⁴ Paley(109); 2-graph\*

? 111 30 5 9 3⁷⁴ –7³⁶

80 58 56 6³⁶ –4⁷⁴

+ 111 44 19 16 7³⁶ –4⁷⁴ S(2,4,37)

66 37 42 3⁷⁴ –8³⁶

! 112 30 2 10 2⁹⁰ –10²¹ unique by Cameron, Goethals & Seidel; subconstituent of McLaughlin graph; q222=0; O^–(6,3) polar graph; GQ(3,9)

81 60 54 9²¹ –3⁹⁰ q111=0

? 112 36 10 12 4⁶³ –6⁴⁸ pg(6,5,2)?

75 50 50 5⁴⁸ –5⁶³

+ 113 56 27 28 4.815⁵⁶ –5.815⁵⁶ Paley(113); 2-graph\*

? 115 18 1 3 3⁶⁹ –5⁴⁵

96 80 80 4⁴⁵ –4⁶⁹

+ 117 36 15 9 9²⁶ –3⁹⁰ S(2,3,27); NO⁺(6,3); Lines in AG(3,3) (rk 4); Wallis (AR(3,1)+S(2,4,13))

80 52 60 2⁹⁰ –10²⁶ pg(8,9,6)?

? 117 58 28 29 4.908⁵⁸ –5.908⁵⁸ 2-graph\*?

+ 119 54 21 27 3⁸⁴ –9³⁴ O^–(8,2) polar graph; pg(6,8,3)?; 2-graph\*

64 36 32 8³⁴ –4⁸⁴ 2-graph\*

! 120 28 14 4 12¹⁵ –2¹⁰⁴ Triangular graph T(16)

91 66 78 1¹⁰⁴ –13¹⁵ pg(7,12,6)?

? 120 34 8 10 4⁶⁸ –6⁵¹

85 60 60 5⁵¹ –5⁶⁸

? 120 35 10 10 5⁵⁶ –5⁶³ pg(7,4,2) does not exist (Azarija-Marc for line graph)

84 58 60 4⁶³ –6⁵⁶

! 120 42 8 18 2⁹⁹ –12²⁰ L(3,4).2^2 on Baer subplanes (rk 4), unique by Degraer & Coolsaet

77 52 44 11²⁰ –3⁹⁹ Witt: intersection-3 graph of a quasisymmetric 2-(21,7,12) design with intersection numbers 1, 3

+ 120 51 18 24 3⁸⁵ –9³⁴ NO^–(5,4); 2-graph

68 40 36 8³⁴ –4⁸⁵ from 2-(15,3,1) with 1-factor Fickus et al.; 2-graph

+ 120 56 28 24 8³⁵ –4⁸⁴ Wallis (AR(2,2)+S(2,3,15)); 2-graph

63 30 36 3⁸⁴ –9³⁵ dist. 2 in J(10,3) - Mathon; NO⁺(8,2); Goethals-Seidel(3,7); pg(7,8,4) - Cohen; see also De Clerck & Delanote; 2-graph

! 121 20 9 2 9²⁰ –2¹⁰⁰ 11²

100 81 90 1¹⁰⁰ –10²⁰ OA(11,10)

+ 121 30 11 6 8³⁰ –3⁹⁰ OA(11,3)

90 65 72 2⁹⁰ –9³⁰ OA(11,9)

? 121 36 7 12 3⁸⁴ –8³⁶

84 59 56 7³⁶ –4⁸⁴

+ 121 40 15 12 7⁴⁰ –4⁸⁰ OA(11,4)

80 51 56 3⁸⁰ –8⁴⁰ OA(11,8)

? 121 48 17 20 4⁷² –7⁴⁸

72 43 42 6⁴⁸ –5⁷²

+ 121 50 21 20 6⁵⁰ –5⁷⁰ OA(11,5); Pasechnik(11)

70 39 42 4⁷⁰ –7⁵⁰ OA(11,7)

- 121 56 15 35 1¹¹² –21⁸ Absolute bound

64 42 24 20⁸ –2¹¹² Absolute bound

+ 121 60 29 30 5⁶⁰ –6⁶⁰ Paley(121); OA(11,6); 2-graph\*

+ 122 55 24 25 5⁶¹ –6⁶⁰ switch OA(11,6)+*; switch skewhad²+*; 2-graph

66 35 36 5⁶⁰ –6⁶¹ S(2,6,61)?; 2-graph

+ 125 28 3 7 3⁸⁴ –7⁴⁰ Godsil(q=5,r=3); GQ(4,6)

96 74 72 6⁴⁰ –4⁸⁴

- 125 48 28 12 18¹⁰ –2¹¹⁴ Absolute bound

76 39 57 1¹¹⁴ –19¹⁰ Absolute bound

+ 125 52 15 26 2¹⁰⁴ –13²⁰ Godsil(q=5,r=2); pg(4,12,2)?; 2-graph\*

72 45 36 12²⁰ –3¹⁰⁴ 2-graph\*

+ 125 62 30 31 5.090⁶² –6.090⁶² Paley(125); 2-graph\*

+ 126 25 8 4 7³⁵ –3⁹⁰ dist. 1 or 4 in J(9,4) - Mathon, Buekenhout \& Hubaut

100 78 84 2⁹⁰ –8³⁵

+ 126 45 12 18 3⁹⁰ –9³⁵ NO^–(6,3); pg(5,8,2)?

80 52 48 8³⁵ –4⁹⁰

! 126 50 13 24 2¹⁰⁵ –13²⁰ Goethals - unique by Coolsaet & Degraer; 2-graph

75 48 39 12²⁰ –3¹⁰⁵ 2-graph

+ 126 60 33 24 12²¹ –3¹⁰⁴ 2-graph

65 28 39 2¹⁰⁴ –13²¹ pg(5,12,3)?; Taylor 2-graph for U₃(5)

- 129 64 31 32 5.179⁶⁴ –6.179⁶⁴ Conf

+ 130 48 20 16 8³⁹ –4⁹⁰ S(2,4,40); lines in PG(3,3); O⁺(6,3)

81 48 54 3⁹⁰ –9³⁹ pg(9,8,6)?

? 133 24 5 4 5⁵⁶ –4⁷⁶ GQ(6,3) does not exist (Dixmier & Zara)

108 87 90 3⁷⁶ –6⁵⁶

? 133 32 6 8 4⁷⁶ –6⁵⁶

100 75 75 5⁵⁶ –5⁷⁶

? 133 44 15 14 6⁵⁶ –5⁷⁶

88 57 60 4⁷⁶ –7⁵⁶

- 133 66 32 33 5.266⁶⁶ –6.266⁶⁶ Conf

+ 135 64 28 32 4⁸⁴ –8⁵⁰ pg(8,7,4) - Cohen; see also De Clerck & Delanote; 2-graph\*

70 37 35 7⁵⁰ –5⁸⁴ O⁺(8,2); from ETF Fickus et al.; 2-graph\*

? 136 30 8 6 6⁵¹ –4⁸⁴

105 80 84 3⁸⁴ –7⁵¹

! 136 30 15 4 13¹⁶ –2¹¹⁹ Triangular graph T(17)

105 78 91 1¹¹⁹ –14¹⁶

+ 136 60 24 28 4⁸⁵ –8⁵⁰ 2-graph

75 42 40 7⁵⁰ –5⁸⁵ NO⁺(5,4); from ETF Fickus et al.; 2-graph

+ 136 63 30 28 7⁵¹ –5⁸⁴ NO^–(8,2); 2-graph

72 36 40 4⁸⁴ –8⁵¹ 2-graph

+ 137 68 33 34 5.352⁶⁸ –6.352⁶⁸ Paley(137); 2-graph\*

- 141 70 34 35 5.437⁷⁰ –6.437⁷⁰ Conf

+ 143 70 33 35 5⁷⁷ –7⁶⁵ intersection-18 graph of a quasisymmetric 2-(78,36,30) design with intersection numbers 15, 18; pg(10,6,5)?; 2-graph\*

72 36 36 6⁶⁵ –6⁷⁷ S(2,6,66); intersection-15 graph of a quasisymmetric 2-(66,30,29) design with intersection numbers 12, 15; 2-graph\*

! 144 22 10 2 10²² –2¹²¹ 12²

121 100 110 1¹²¹ –11²² OA(12,11)?

+ 144 33 12 6 9³³ –3¹¹⁰ OA(12,3)

110 82 90 2¹¹⁰ –10³³ OA(12,10)?

+ 144 39 6 12 3¹⁰⁴ –9³⁹ L₃(3) (rk 8)

104 76 72 8³⁹ –4¹⁰⁴

+ 144 44 16 12 8⁴⁴ –4⁹⁹ OA(12,4)

99 66 72 3⁹⁹ –9⁴⁴ OA(12,9)?

? 144 52 16 20 4⁹¹ –8⁵²

91 58 56 7⁵² –5⁹¹

+ 144 55 22 20 7⁵⁵ –5⁸⁸ OA(12,5)

88 52 56 4⁸⁸ –8⁵⁵ OA(12,8)?

- 144 65 16 40 1¹³⁵ –25⁸ Krein2; Absolute bound

78 52 30 24⁸ –2¹³⁵ Krein1; Absolute bound

+ 144 65 28 30 5⁷⁸ –7⁶⁵ RSHCD^–; 2-graph

78 42 42 6⁶⁵ –6⁷⁸ from 2-(12,2,1) with 1-factor Fickus et al.; 2-graph

+ 144 66 30 30 6⁶⁶ –6⁷⁷ OA(12,6); Wallis (AR(2,3)+S(2,2,12)); RSHCD⁺; 2-graph

77 40 42 5⁷⁷ –7⁶⁶ OA(12,7); Wallis2 (AR(2,3)+S(2,2,12)); Goethals-Seidel(2,11); 2-graph

? 145 72 35 36 5.521⁷² –6.521⁷² 2-graph\*?

? 147 66 25 33 3¹¹⁰ –11³⁶ pg(6,10,3)?; 2-graph\*?

80 46 40 10³⁶ –4¹¹⁰ 2-graph\*?

? 148 63 22 30 3¹¹¹ –11³⁶ 2-graph?

84 50 44 10³⁶ –4¹¹¹ 2-graph?

? 148 70 36 30 10³⁷ –4¹¹⁰ 2-graph?

77 36 44 3¹¹⁰ –11³⁷ 2-graph?

+ 149 74 36 37 5.603⁷⁴ –6.603⁷⁴ Paley(149); 2-graph\*

	v	k	λ	μ	r^f	s^g	comments
+	101	50	24	25	4.525⁵⁰	–5.525⁵⁰	Paley(101); 2-graph\*
!	105	26	13	4	11¹⁴	–2⁹⁰	Triangular graph T(15)
		78	55	66	1⁹⁰	–12¹⁴
!	105	32	4	12	2⁸⁴	–10²⁰	Aut L(3,4) on flags (rk 4) - Goethals & Seidel, unique by Coolsaet
		72	51	45	9²⁰	–3⁸⁴
?	105	40	15	15	5⁴⁸	–5⁵⁶
		64	38	40	4⁵⁶	–6⁴⁸
?	105	52	21	30	2⁸⁴	–11²⁰
		52	29	22	10²⁰	–3⁸⁴
-	105	52	25	26	4.623⁵²	–5.623⁵²	Conf
+	109	54	26	27	4.720⁵⁴	–5.720⁵⁴	Paley(109); 2-graph\*
?	111	30	5	9	3⁷⁴	–7³⁶
		80	58	56	6³⁶	–4⁷⁴
+	111	44	19	16	7³⁶	–4⁷⁴	S(2,4,37)
		66	37	42	3⁷⁴	–8³⁶
!	112	30	2	10	2⁹⁰	–10²¹	unique by Cameron, Goethals & Seidel; subconstituent of McLaughlin graph; q222=0; O^–(6,3) polar graph; GQ(3,9)
		81	60	54	9²¹	–3⁹⁰	q111=0
?	112	36	10	12	4⁶³	–6⁴⁸	pg(6,5,2)?
		75	50	50	5⁴⁸	–5⁶³
+	113	56	27	28	4.815⁵⁶	–5.815⁵⁶	Paley(113); 2-graph\*
?	115	18	1	3	3⁶⁹	–5⁴⁵
		96	80	80	4⁴⁵	–4⁶⁹
+	117	36	15	9	9²⁶	–3⁹⁰	S(2,3,27); NO⁺(6,3); Lines in AG(3,3) (rk 4); Wallis (AR(3,1)+S(2,4,13))
		80	52	60	2⁹⁰	–10²⁶	pg(8,9,6)?
?	117	58	28	29	4.908⁵⁸	–5.908⁵⁸	2-graph\*?
+	119	54	21	27	3⁸⁴	–9³⁴	O^–(8,2) polar graph; pg(6,8,3)?; 2-graph\*
		64	36	32	8³⁴	–4⁸⁴	2-graph\*
!	120	28	14	4	12¹⁵	–2¹⁰⁴	Triangular graph T(16)
		91	66	78	1¹⁰⁴	–13¹⁵	pg(7,12,6)?
?	120	34	8	10	4⁶⁸	–6⁵¹
		85	60	60	5⁵¹	–5⁶⁸
?	120	35	10	10	5⁵⁶	–5⁶³	pg(7,4,2) does not exist (Azarija-Marc for line graph)
		84	58	60	4⁶³	–6⁵⁶
!	120	42	8	18	2⁹⁹	–12²⁰	L(3,4).2^2 on Baer subplanes (rk 4), unique by Degraer & Coolsaet
		77	52	44	11²⁰	–3⁹⁹	Witt: intersection-3 graph of a quasisymmetric 2-(21,7,12) design with intersection numbers 1, 3
+	120	51	18	24	3⁸⁵	–9³⁴	NO^–(5,4); 2-graph
		68	40	36	8³⁴	–4⁸⁵	from 2-(15,3,1) with 1-factor Fickus et al.; 2-graph
+	120	56	28	24	8³⁵	–4⁸⁴	Wallis (AR(2,2)+S(2,3,15)); 2-graph
		63	30	36	3⁸⁴	–9³⁵	dist. 2 in J(10,3) - Mathon; NO⁺(8,2); Goethals-Seidel(3,7); pg(7,8,4) - Cohen; see also De Clerck & Delanote; 2-graph
!	121	20	9	2	9²⁰	–2¹⁰⁰	11²
		100	81	90	1¹⁰⁰	–10²⁰	OA(11,10)
+	121	30	11	6	8³⁰	–3⁹⁰	OA(11,3)
		90	65	72	2⁹⁰	–9³⁰	OA(11,9)
?	121	36	7	12	3⁸⁴	–8³⁶
		84	59	56	7³⁶	–4⁸⁴
+	121	40	15	12	7⁴⁰	–4⁸⁰	OA(11,4)
		80	51	56	3⁸⁰	–8⁴⁰	OA(11,8)
?	121	48	17	20	4⁷²	–7⁴⁸
		72	43	42	6⁴⁸	–5⁷²
+	121	50	21	20	6⁵⁰	–5⁷⁰	OA(11,5); Pasechnik(11)
		70	39	42	4⁷⁰	–7⁵⁰	OA(11,7)
-	121	56	15	35	1¹¹²	–21⁸	Absolute bound
		64	42	24	20⁸	–2¹¹²	Absolute bound
+	121	60	29	30	5⁶⁰	–6⁶⁰	Paley(121); OA(11,6); 2-graph\*
+	122	55	24	25	5⁶¹	–6⁶⁰	switch OA(11,6)+; switch skewhad²+; 2-graph
		66	35	36	5⁶⁰	–6⁶¹	S(2,6,61)?; 2-graph
+	125	28	3	7	3⁸⁴	–7⁴⁰	Godsil(q=5,r=3); GQ(4,6)
		96	74	72	6⁴⁰	–4⁸⁴
-	125	48	28	12	18¹⁰	–2¹¹⁴	Absolute bound
		76	39	57	1¹¹⁴	–19¹⁰	Absolute bound
+	125	52	15	26	2¹⁰⁴	–13²⁰	Godsil(q=5,r=2); pg(4,12,2)?; 2-graph\*
		72	45	36	12²⁰	–3¹⁰⁴	2-graph\*
+	125	62	30	31	5.090⁶²	–6.090⁶²	Paley(125); 2-graph\*
+	126	25	8	4	7³⁵	–3⁹⁰	dist. 1 or 4 in J(9,4) - Mathon, Buekenhout \& Hubaut
		100	78	84	2⁹⁰	–8³⁵
+	126	45	12	18	3⁹⁰	–9³⁵	NO^–(6,3); pg(5,8,2)?
		80	52	48	8³⁵	–4⁹⁰
!	126	50	13	24	2¹⁰⁵	–13²⁰	Goethals - unique by Coolsaet & Degraer; 2-graph
		75	48	39	12²⁰	–3¹⁰⁵	2-graph
+	126	60	33	24	12²¹	–3¹⁰⁴	2-graph
		65	28	39	2¹⁰⁴	–13²¹	pg(5,12,3)?; Taylor 2-graph for U₃(5)
-	129	64	31	32	5.179⁶⁴	–6.179⁶⁴	Conf
+	130	48	20	16	8³⁹	–4⁹⁰	S(2,4,40); lines in PG(3,3); O⁺(6,3)
		81	48	54	3⁹⁰	–9³⁹	pg(9,8,6)?
?	133	24	5	4	5⁵⁶	–4⁷⁶	GQ(6,3) does not exist (Dixmier & Zara)
		108	87	90	3⁷⁶	–6⁵⁶
?	133	32	6	8	4⁷⁶	–6⁵⁶
		100	75	75	5⁵⁶	–5⁷⁶
?	133	44	15	14	6⁵⁶	–5⁷⁶
		88	57	60	4⁷⁶	–7⁵⁶
-	133	66	32	33	5.266⁶⁶	–6.266⁶⁶	Conf
+	135	64	28	32	4⁸⁴	–8⁵⁰	pg(8,7,4) - Cohen; see also De Clerck & Delanote; 2-graph\*
		70	37	35	7⁵⁰	–5⁸⁴	O⁺(8,2); from ETF Fickus et al.; 2-graph\*
?	136	30	8	6	6⁵¹	–4⁸⁴
		105	80	84	3⁸⁴	–7⁵¹
!	136	30	15	4	13¹⁶	–2¹¹⁹	Triangular graph T(17)
		105	78	91	1¹¹⁹	–14¹⁶
+	136	60	24	28	4⁸⁵	–8⁵⁰	2-graph
		75	42	40	7⁵⁰	–5⁸⁵	NO⁺(5,4); from ETF Fickus et al.; 2-graph
+	136	63	30	28	7⁵¹	–5⁸⁴	NO^–(8,2); 2-graph
		72	36	40	4⁸⁴	–8⁵¹	2-graph
+	137	68	33	34	5.352⁶⁸	–6.352⁶⁸	Paley(137); 2-graph\*
-	141	70	34	35	5.437⁷⁰	–6.437⁷⁰	Conf
+	143	70	33	35	5⁷⁷	–7⁶⁵	intersection-18 graph of a quasisymmetric 2-(78,36,30) design with intersection numbers 15, 18; pg(10,6,5)?; 2-graph\*
		72	36	36	6⁶⁵	–6⁷⁷	S(2,6,66); intersection-15 graph of a quasisymmetric 2-(66,30,29) design with intersection numbers 12, 15; 2-graph\*
!	144	22	10	2	10²²	–2¹²¹	12²
		121	100	110	1¹²¹	–11²²	OA(12,11)?
+	144	33	12	6	9³³	–3¹¹⁰	OA(12,3)
		110	82	90	2¹¹⁰	–10³³	OA(12,10)?
+	144	39	6	12	3¹⁰⁴	–9³⁹	L₃(3) (rk 8)
		104	76	72	8³⁹	–4¹⁰⁴
+	144	44	16	12	8⁴⁴	–4⁹⁹	OA(12,4)
		99	66	72	3⁹⁹	–9⁴⁴	OA(12,9)?
?	144	52	16	20	4⁹¹	–8⁵²
		91	58	56	7⁵²	–5⁹¹
+	144	55	22	20	7⁵⁵	–5⁸⁸	OA(12,5)
		88	52	56	4⁸⁸	–8⁵⁵	OA(12,8)?
-	144	65	16	40	1¹³⁵	–25⁸	Krein2; Absolute bound
		78	52	30	24⁸	–2¹³⁵	Krein1; Absolute bound
+	144	65	28	30	5⁷⁸	–7⁶⁵	RSHCD^–; 2-graph
		78	42	42	6⁶⁵	–6⁷⁸	from 2-(12,2,1) with 1-factor Fickus et al.; 2-graph
+	144	66	30	30	6⁶⁶	–6⁷⁷	OA(12,6); Wallis (AR(2,3)+S(2,2,12)); RSHCD⁺; 2-graph
		77	40	42	5⁷⁷	–7⁶⁶	OA(12,7); Wallis2 (AR(2,3)+S(2,2,12)); Goethals-Seidel(2,11); 2-graph
?	145	72	35	36	5.521⁷²	–6.521⁷²	2-graph\*?
?	147	66	25	33	3¹¹⁰	–11³⁶	pg(6,10,3)?; 2-graph\*?
		80	46	40	10³⁶	–4¹¹⁰	2-graph\*?
?	148	63	22	30	3¹¹¹	–11³⁶	2-graph?
		84	50	44	10³⁶	–4¹¹¹	2-graph?
?	148	70	36	30	10³⁷	–4¹¹⁰	2-graph?
		77	36	44	3¹¹⁰	–11³⁷	2-graph?
+	149	74	36	37	5.603⁷⁴	–6.603⁷⁴	Paley(149); 2-graph\*

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