介子列表

介子由一个夸克和一个反夸克组成的不稳定亚原子粒子的列表。它们是强子的一种。强子的另一个成员是重子，由三个夸克组成的亚原子粒子。介子和重子的主要区别在于介子具有整数自旋（因此是玻色子），而重子是费米子（半整数自旋）。因为介子是玻色子，泡利不相容原理不适用于它们。因此，它们可以在短距离内充当作用力的中介粒子，从而在核相互作用等过程中发挥作用。

由于介子是由夸克组成的，它们既参与弱相互作用，也参与强相互作用。带净电荷的介子也参与了电磁相互作用。它们根据夸克含量、总角动量、宇称和各种其他性质（如C-宇称和G-宇称）进行分类。虽然没有介子是稳定的，但质量较低的介子比质量最大的介子更稳定，在粒子加速器或宇宙射线实验中更容易观察和研究。它们通常比重子质量小，这意味着它们在实验中更容易产生，并且比重子更快地表现出更高的能量现象。例如，1974年在J/ψ介子中发现魅夸克^[1]^[2]，1977年在ϒ介子中发现底夸克^[3]。

每个介子都有一个对应的反粒子（反介子），夸克被相应的反夸克取代，反之亦然。例如，一个正介子（π+）是由一个上夸克和一个反下夸克组成的；它对应的反粒子，负介子（π-）由一个反上夸克和一个下夸克组成。一些实验显示了四夸克介子的证据，由两个夸克和两个反夸克组成的奇异介子，但粒子物理学整体上认为它们的存在是可能的^[4]。

介子列表

下面列出了所有已知和预测的赝标介子和矢量介子的详细信息。

本列表并未列出反介子。然而，它们只是将所有夸克换成对应的反夸克，并将Q、B、S、C、B′等数值变号。名称旁边有^†的粒子已由标准模型预测，但尚未观察到。红色的数值并没有通过实验确定，而是通过夸克模型预测出来的，并且与测量结果一致。

在本列表中的符号有：I（同位旋）、J（总角动量量子数）、P（宇称，表示座标系镜像变换时特征值的奇偶性）、C（C-宇称）、G（G-宇称）、u（上夸克）、d（下夸克）、s（奇夸克）、c（粲夸克）、b（底夸克）、Q（电荷）、B（重子数）、 S（奇异数）、C（粲数）、B′（底数）以及多种次原子粒子。

赝标介子

J^P = 0^-介子

赝标介子
粒子名称	粒子符号	反粒子符号	夸克组成	静止质量 (MeV/c²)	I^G	J^PC	S	C	B'	平均生命期 (s)	通常衰变至 (>5%的衰变)
π介子^[5]	π⁺	π⁻	u d	0139.57018 !7002139570180000000♠139.57018±0.00035	1⁻	0⁻	0	0	0	-08.2 !6992260330000000000♠(2.6033±0.0005)×10⁻⁸	μ⁺ + ν_μ
π介子^[6]	π⁰	Self	$\mathrm{\tfrac{u\bar{u} - d\bar{d}}{\sqrt{2}}}\,$ ^{^[a]}	0134.9766 !7002134976599999999♠134.9766±0.0006	1⁻	0⁻⁺	0	0	0	-17 !6983851999999999999♠(8.52±0.18)×10⁻¹⁷	γ + γ
η介子^[7]	η	Self	$\mathrm{\tfrac{u\bar{u} + d\bar{d} - 2s\bar{s}}{\sqrt{6}}}\,$ ^{^[a]}	0547.862 !7002547861999999999♠547.862±0.018	0⁺	0⁻⁺	0	0	0	-19 !6981501999999999999♠(5.02±0.19)×10⁻¹⁹^{^[b]}	γ + γ or π⁰ + π⁰ + π⁰ or π⁺ + π⁰ + π⁻
η素介子^[8]	η′ (958)	Self	解析失败 (转换错误。服务器（“cli”）报告：“[INVALID]”): {\displaystyle \tfrac\mathrm{u\bar{u} + d\bar{d} + s\bar{s}}{\sqrt{3}}\,} ^{^[a]}	0957.78 !7002957780000000000♠957.78±0.06	0⁺	0⁻⁺	0	0	0	-21 !6979331999999999999♠(3.32±0.15)×10⁻²¹^{^[b]}	π⁺ + π⁻ + η or (ρ⁰ + γ ) / (π⁺ + π⁻ + γ ) or π⁰ + π⁰ + η
η粲介子^[9]	η_c (1S)	Self	c c	7003298360000000000♠2983.6±0.7	0⁺	0⁻⁺	0	0	0	-23 !6977204000000000000♠(2.04±0.05)×10⁻²³^{^[b]}	http://pdg.lbl.gov/2010/listings/rpp2010-list-eta-c-1S.pdf
η底介子^[10]	η_b (1S)	Self	b b	7003939800000000000♠9398.0±3.2	0⁺	0⁻⁺	0	0	0	未知	http://pdg.lbl.gov/2014/listings/rpp2014-list-eta-b-1S.pdf
K介子^[11]	K⁺	K⁻	u s	0493.677 !7002493677000000000♠493.677±0.016	¹⁄₂	0⁻	1	0	0	-08.3 !6992123800000000000♠(1.2380±0.0021)×10⁻⁸	μ⁺ + ν_μ or π⁺ + π⁰ or π⁰ + e⁺ + ν_e or π⁺ + π⁺ + π⁻
K介子^[12]	K⁰	K⁰	d s	0497.614 !7002497614000000000♠497.614±0.024	¹⁄₂	0⁻	1	0	0	^{^[c]}	^{^[c]}
短寿命K介子^[13]	K⁰_S	Self	$\mathrm{\tfrac{d\bar{s} + s\bar{d}}{\sqrt{2}}}\,$ ^{^[e]}	0497.614 !7002497614000000000♠497.614±0.024^{^[d]}	¹⁄₂	0⁻	(*)	0	0	-11 !6989895400000000000♠(8.954±0.004)×10⁻¹¹	π⁺ + π⁻ or π⁰ + π⁰
长寿命K介子^[14]	K⁰_L	Self	$\mathrm{\tfrac{d\bar{s} - s\bar{d}}{\sqrt{2}}}\,$ ^{^[e]}	0497.614 !7002497614000000000♠497.614±0.024^{^[d]}	¹⁄₂	0⁻	(*)	0	0	-08.1 !6992511599999999999♠(5.116±0.021)×10⁻⁸	π^± + e^∓ + ν_e or π^± + μ^∓ + ν_μ or π⁰ + π⁰ + π⁰ or π⁺ + π⁰ + π⁻
D介子^[15]	D⁺	D⁻	c d	7003186961000000000♠1869.61±0.10	¹⁄₂	0⁻	0	+1	0	-12.4 !6988104000000000000♠(1.040±0.007)×10⁻¹²	http://pdg.lbl.gov/2014/listings/rpp2014-list-D-plus-minus.pdf
D介子^[16]	D⁰	D⁰	c u	7003186484000000000♠1864.84±0.07	¹⁄₂	0⁻	0	+1	0	-13.3 !6987410100000000000♠(4.101±0.015)×10⁻¹³	http://pdg.lbl.gov/2014/listings/rpp2014-list-D-zero.pdf
奇D介子^[17]	D⁺_s	D⁻_s	c s	7003196830000000000♠1968.30±0.11	0	0⁻	+1	+1	0	-13.1 !6987500000000000000♠(5.00±0.07)×10⁻¹³	http://pdg.lbl.gov/2014/listings/rpp2014-list-Ds-plus-minus.pdf
B介子^[18]	B⁺	B⁻	u b	7003527926000000000♠5279.26±0.17	¹⁄₂	0⁻	0	0	+1	-12.1 !6988163800000000000♠(1.638±0.004)×10⁻¹²	http://pdg.lbl.gov/2014/listings/rpp2014-list-B-plus-minus.pdf
B介子^[19]	B⁰	B⁰	d b	7003527958000000000♠5279.58±0.17	¹⁄₂	0⁻	0	0	+1	-12.2 !6988151900000000000♠(1.519±0.009)×10⁻¹²	http://pdg.lbl.gov/2014/listings/rpp2014-list-B-zero.pdf
奇B介子^[20]	B⁰_s	B⁰_s	s b	7003536677000000000♠5366.77±0.24	0	0⁻	−1	0	+1	-12.3 !6988151200000000000♠(1.512±0.007)×10⁻¹²	http://pdg.lbl.gov/2014/listings/rpp2014-list-Bs-zero.pdf
粲B介子^[21]	B⁺_c	B⁻_c	c b	7003627560000000000♠6275.6±1.1	0	0⁻	0	+1	+1	-13.2 !6987452000000000000♠(4.52±0.33)×10⁻¹³	http://pdg.lbl.gov/2014/listings/rpp2014-list-Bc-plus-minus.pdf

^[a] ^ 由于非零夸克质量而产生的补偿不精确。
^[b] ^ 此处根据粒子数据组（PDG）所给出的共振宽度（Γ）值，使用生命期τ = ħ/Γ 转换求得。
^[c] ^ 强本征态，没有确定的寿命。
^[d] ^ 所给出的K⁰_L与K⁰_S的质量与K⁰相同，但已知K⁰_L与K⁰_S存在大约为6989220000000000000♠2.2×10⁻¹¹ MeV/c²的质量差。^[14]
^[e] ^ Weak eigenstate. Makeup is missing small CP–violating term (see notes on neutral kaons below).

矢量介子

J^P = 1^-介子

矢量介子
粒子名称	粒子符号	反粒子符号	夸克组成	静止质量 (MeV/c²)	I^G	J^PC	S	C	B'	平均生命期 (s)	通常衰变至 (>5%的衰变)
ρ介子^[22]	ρ⁺ (770)	ρ⁻ (770)	u d	0775.11 !7002775110000000000♠775.11±0.34	1⁺	1⁻	0	0	0	-24 !6976440999999999999♠(4.41±0.02)×10⁻²⁴^{^[f]^[g]}	π^± + π⁰
ρ介子^[22]	ρ⁰ (770)	Self	$\tfrac{1}{\sqrt 2} \left( \mathrm{ u\bar{u}-d\bar{d} } \right)\,$	0775.26 !7002775260000000000♠775.26±0.25	1⁺	1⁻⁻	0	0	0	-24 !6976444999999999999♠(4.45±0.03)×10⁻²⁴^{^[f]^[g]}	π⁺ + π⁻
ω介子^[23]	ω (782)	Self	$\tfrac{1}{\sqrt 2} \left( \mathrm{ u\bar{u} + d\bar{d} } \right)\,$	0783 !7002782650000000000♠782.65±0.12	0⁻	1⁻⁻	0	0	0	-23 !6977774999999999999♠(7.75±0.07)×10⁻²³^{^[f]}	π⁺ + π⁰ + π⁻ or π⁰ + γ
φ介子^[24]	φ (1020)	Self	s s	7003101946100000000♠1019.461±0.019	0⁻	1⁻⁻	0	0	0	-22.3 !6978154000000000000♠(1.54±0.01)×10⁻²²^{^[f]}	K⁺ + K⁻ or K⁰_S + K⁰_L or (ρ + π ) / (π⁺ + π⁰ + π⁻ )
J/ψ介子^[25]	J/ψ	Self	c c	7003309691600000000♠3096.916±0.011	0⁻	1⁻⁻	0	0	0	-21.1 !6979708999999999999♠(7.09±0.21)×10⁻²¹^{^[f]}	http://pdg.lbl.gov/2014/listings/rpp2014-list-J-psi-1S.pdf
ϒ介子^[26]	ϒ (1S)	Self	b b	7003946029999999999♠9460.30±0.26	0⁻	1⁻⁻	0	0	0	-20.3 !6980121999999999999♠(1.22±0.03)×10⁻²⁰^{^[f]}	http://pdg.lbl.gov/2014/listings/rpp2014-list-upsilon-1S.pdf
K介子^[27]	K^∗+	K^∗−	u s	0892 !7002891660000000000♠891.66±0.026	¹⁄₂	1⁻	1	0	0	-23.1 !6977325999999999999♠(3.26±0.06)×10⁻²³^{^[f]^[g]}	http://pdg.lbl.gov/2014/listings/rpp2014-list-K-star-892.pdf
K介子^[27]	K^∗0	K^∗0	d s	0896 !7002895810000000000♠895.81±0.19	¹⁄₂	1⁻	1	0	0	-20.2 !6977138999999999999♠(1.39±0.02)×10⁻²³^{^[f]}	http://pdg.lbl.gov/2014/listings/rpp2014-list-K-star-892.pdf
D介子^[28]	D^∗+ (2010)	D^∗− (2010)	c d	7003201026000000000♠2010.26±0.07	¹⁄₂	1⁻	0	+1	0	-21.2 !6979788999999999999♠(7.89±0.17)×10⁻²¹^{^[f]}	D⁰ + π⁺ or D⁺ + π⁰
D介子^[29]	D^∗0 (2007)	D^∗0 (2007)	c u	7003200696000000000♠2006.96±0.10	¹⁄₂	1⁻	0	+1	0	-22.2 !>6978310000000000000♠3.1×10⁻²²^{^[f]}	D⁰ + π⁰ or D⁰ + γ
奇D介子^[30]	D^∗+_s	D^∗−_s	c s	7003211210000000000♠2112.1±0.4	0	1⁻	+1	+1	0	-22.1 !>6978340000000000000♠3.4×10⁻²²^{^[f]}	D^∗+ + γ or D^∗+ + π⁰
B介子^[31]	B^∗+	B^∗−	u b	7003532520000000000♠5325.2±0.4	¹⁄₂	1⁻	0	0	+1	未知	B⁺ + γ
B介子^[31]	B^∗0	B^∗0	d b	7003532520000000000♠5325.2±0.4	¹⁄₂	1⁻	0	0	+1	未知	B⁰ + γ
奇B介子^[32]	B^∗0_s	B^∗0_s	s b	7003541539999999999♠5415.4+2.4 −2.1	0	1⁻	−1	0	+1	未知	B⁰_s +γ
粲B介子^†	B^∗+_c	B^∗−_c	c b	未知	0	1⁻	0	+1	+1	未知	未知

^[f] ^ 此处根据粒子数据组（PDG）所给出的共振宽度（Γ）值，使用生命期τ = ħ/Γ 转换求得。
^[g] ^ 精确值取决于所用的方法，详见给定参考。

介子共振粒子

因为这个表最初是从公布的结果中推导出来的，其中许多结果是初步的，所以下表中多达64个介子可能不存在，或者质量或量子数错误。

介子共振粒子^[33]
Light unflavoured (S=C=B=0)				Strange (S=±1, C=B=0)		Charmed, strange (C=S=±1)		cc
	I^G(J^PC)		I^G(J^PC)		I^G(J^P)		I^G(J^P)		I^G(J^PC)
π±	1⁻(0⁻)	φ(1680)	0⁻(1⁻⁻)	K±	¹⁄₂(0⁻)	D± s	0(0⁻)	η c(1S)	0⁺(0⁻⁺)
π0	1⁻(0⁻⁺)	ρ 3(1690)	1⁺(3⁻⁻)	K0	¹⁄₂(0⁻)	D*± s	0(?^?)	J/ψ(1S)	0⁻(1⁻⁻)
η	0⁺(0⁻⁺)	ρ(1700)	1⁺(1⁻⁻)	K0 S	¹⁄₂(0⁻)	D* s0(2317)^±	0(0⁺)	χ c0(1P)	0⁺(0⁺⁺)
f 0(500)	0⁺(0⁺⁺)	a 2(1700)	1⁻(2⁺⁺)	K0 L	¹⁄₂(0⁻)	D s1(2460)^±	0(1⁺)	χ c1(1P)	0⁺(1⁺⁺)
ρ(770)	1⁺(1⁻⁻)	f₀(1710)	0⁺(0⁺⁺)	K* 0(800)	¹⁄₂(0⁺)	D s1(2536)^±	0(1⁺)	h c(1P)	?^?(1⁺⁻)
ω(782)	0⁻(1⁻⁻)	η(1760)	0⁺(0⁻⁺)	K*(892)	¹⁄₂(1⁻)	D s2(2573)	0(?^?)	χ c2(1P)	0⁺(2⁺⁺)
η′ (958)	0⁺(0⁻⁺)	π(1800)	1⁻(0⁻⁺)	K 1(1270)	¹⁄₂(1⁺)	D* s1(2700)^±	0(1⁻)	η c(2S)	0⁺(0⁻⁺)
f 0(980)	0⁺(0⁺⁺)	f 2(1810)	0⁺(2⁺⁺)	K 1(1400)	¹⁄₂(1⁺)	D* sJ(2860)^±	0(?^?)	ψ(2S)	0⁻(1⁻⁻)
a 0(980)	1⁻(0⁺⁺)	X(1835)	?^?(?⁻⁺)	K*(1410)	¹⁄₂(1⁻)	D sJ(3040)^±	0(?^?)	ψ(3770)	0⁻(1⁻⁻)
φ(1020)	0⁻(1⁻⁻)	X(1840)	?^?(?^??)	K* 0(1430)	¹⁄₂(0⁺)	Bottom (B=±1)		X(3823)	?^?(?^?−)
h 1(1170)	0⁻(1⁺⁻)	φ 3(1850)	0⁻(3⁻⁻)	K* 2(1430)	¹⁄₂(2⁺)	Bottom (B=±1)		X(3872)	0⁺(1⁺⁺)
b 1(1235)	1⁺(1⁺⁻)	η 2(1870)	0⁺(2⁻⁺)	K(1460)	¹⁄₂(0⁻)	B±	¹⁄₂(0⁻)	X(3900)^±	?(1⁺)
a 1(1260)	1⁻(1⁺⁺)	π 2(1880)	1⁻(2⁻⁺)	K 2(1580)	¹⁄₂(2⁻)	B0	¹⁄₂(0⁻)	X(3900)⁰	?(?^?)
f 2(1270)	0⁺(2⁺⁺)	ρ(1900)	1⁺(1⁻⁻)	K(1630)	¹⁄₂(?^?)	B±/B0 Admixture		χ c0(2P)	0⁺(0⁺⁺)
f 1(1285)	0⁺(1⁺⁺)	f 2(1910)	0⁺(2⁺⁺)	K 1(1650)	¹⁄₂(1⁺)	B±/B0/B0 s/b-baryon Admixture		χ c2(2P)	0⁺(2⁺⁺)
η(1295)	0⁺(0⁻⁺)	f 2(1950)	0⁺(2⁺⁺)	K*(1680)	¹⁄₂(1⁻)	B±/B0/B0 s/b-baryon Admixture		X(3940)	?^?(?^??)
π(1300)	1⁻(0⁻⁺)	ρ 3(1990)	1⁺(3⁻⁻)	K 2(1770)	¹⁄₂(2⁻)	V_cb and V_ub CKM Matrix Admixture		X(4020)^±	?(?^?)
a 2(1320)	1⁻(2⁺⁺)	f 2(2010)	0⁺(2⁺⁺)	K* 3(1780)	¹⁄₂(3⁻)	V_cb and V_ub CKM Matrix Admixture		ψ(4040)	0⁻(1⁻⁻)
f 0(1370)	0⁺(0⁺⁺)	f 0(2020)	0⁺(0⁺⁺)	K 2(1820)	¹⁄₂(2⁻)	B*	¹⁄₂(1⁻)	X(4050)^±	?(?^?)
h 1(1380)	?⁻(1⁺⁻)	a 4(2040)	1⁻(4⁺⁺)	K(1830)	¹⁄₂(0⁻)	B* J(5732)	?(?^?)	X(4140)	0⁺(?^?+)
π 1(1400)	1⁻(1⁻⁺)	f 4(2050)	0⁺(4⁺⁺)	K* 0(1950)	¹⁄₂(0⁺)	B 1(5721)⁰	¹⁄₂(1⁺)	ψ(4160)	0⁻(1⁻⁻)
η(1405)	0⁺(0⁻⁺)	π 2(2100)	1⁻(2⁻⁺)	K* 2(1980)	¹⁄₂(2⁺)	B* 1(5721)⁰	¹⁄₂(2⁺)	X(4160)	?^?(?^??)
f 1(1420)	0⁺(1⁺⁺)	f 0(2100)	0⁺(0⁺⁺)	K* 0(2045)	¹⁄₂(4⁺)	Bottom, strange (B=±1, S=∓1)		X(4250)^±	?(?^?)
ω(1420)	0⁻(1⁻⁻)	f 2(2150)	0⁺(2⁺⁺)	K 2(2250)	¹⁄₂(2⁻)	Bottom, strange (B=±1, S=∓1)		X(4260)	?^?(1⁻⁻)
f 2(1430)	0⁺(2⁺⁺)	ρ(2150)	1⁺(1⁻⁻)	K 3(2320)	¹⁄₂(3⁺)	B0 s	0(0⁻)	X(4350)	0⁺(?^?+)
a 0(1450)	1⁻(0⁺⁺)	φ(2170)	0⁻(1⁻⁻)	K* 5(2380)	¹⁄₂(5⁻)	B* s	0(1⁻)	X(4360)	?^?(1⁻⁻)
ρ(1450)	1⁺(1⁻⁻)	f 0(2200)	0⁺(0⁺⁺)	k 4(2500)	¹⁄₂(4⁻)	B s1(5830)⁰	0(1⁺)	ψ(4415)	0⁻(1⁻⁻)
η(1475)	0⁺(0⁻⁺)	f_J(2200)	0⁺(2⁺⁺ or 4⁺⁺)	K(3100)	?^?(?^??)	B* s2(5840)⁰	0(2⁺)	X(4430)^±	?(1⁺)
f 0(1500)	0⁺(0⁺⁺)	f_J(2200)	0⁺(2⁺⁺ or 4⁺⁺)	Charmed (C=±1)		B* sJ(5850)	?(?^?)	X(4660)	?^?(1⁻⁻)
f 1(1510)	0⁺(1⁺⁺)	η(2225)	0⁺(0⁻⁺)	Charmed (C=±1)		Bottom, charmed (B=C=±1)		bb
f′ 1(1525)	0⁺(2⁺⁺)	ρ 3(2250)	1⁺(3⁻⁻)	D±	¹⁄₂(0⁻)	Bottom, charmed (B=C=±1)		η b(1S)	0⁺(0⁻⁺)
f 2(1565)	0⁺(2⁺⁺)	f₂(2300)	0⁺(2⁺⁺)	D0	¹⁄₂(0⁻)	B± c	0(0⁻)	Υ(1S)	0⁻(1⁻⁻)
ρ(1570)	1⁺(1⁻⁻)	f 4(2300)	0⁺(4⁺⁺)	D*(2007)⁰	¹⁄₂(1⁻)			χ b0(1P)	0⁺(0⁺⁺)
h 1(1595)	0⁻(1⁺⁻)	f 0(2330)	0⁺(0⁺⁺)	D*(2010)^±	¹⁄₂(1⁻)			χ b1(1P)	0⁺(1⁺⁺)
π 1(1600)	1⁻(1⁻⁺)	f 2(2340)	0⁺(2⁺⁺)	D* 0(2400)⁰	¹⁄₂(0⁺)			χ b0(2P)	0⁺(0⁺⁺)
a 1(1640)	1⁻(1⁺⁺)	ρ 5(2350)	1⁺(5⁻⁻)	D* 0(2400)^±	¹⁄₂(0⁺)			h b(1P)	?^?(1⁺⁻)
f 2(1640)	0⁺(2⁺⁺)	a 6(2450)	1⁻(6⁺⁺)	D 1(2420)⁰	¹⁄₂(1⁺)			χ b2(1P)	0⁺(2⁺⁺)
η 2(1645)	0⁺(2⁻⁺)	f 6(2510)	0⁺(6⁺⁺)	D 1(2420)^±	¹⁄₂(?^?)			η b(2S)	0⁺(0⁻⁺)
ω(1650)	0⁻(1⁻⁻)	Other Light		D 1(2430)⁰	¹⁄₂(1⁺)			Υ(2S)	0⁻(1⁻⁻)
ω 3(1670)	0⁻(3⁻⁻)	Further States		D* 2(2460)⁰	¹⁄₂(2⁺)			Υ(1D)	0⁻(2⁻⁻)
π 2(1670)	1⁻(2⁻⁺)			D* 2(2460)^±	¹⁄₂(2⁺)			χ b0(2P)	0⁺(0⁺⁺)
				D(2550)⁰	¹⁄₂(0⁻)			χ b1(2P)	0⁺(1⁺⁺)
				D(2600)	¹⁄₂(?^?)			h b(2P)	?^?(1⁺⁻)
				D*(2640)^±	¹⁄₂(?^?)			χ b2(2P)	0⁺(2⁺⁺)
				D(2750)	¹⁄₂(?^?)			Υ(3S)	0⁻(1⁻⁻)
								χ b(3P)	?^?(?^?+)
								Υ(4S)	0⁻(1⁻⁻)
								X(10610)^±	1⁺(1⁺)
								X(10610)⁰	1⁺(1⁺)
								X(10650)^±	?⁺(1⁺)
								Υ(10860)	0⁻(1⁻⁻)
								Υ(11020)	0⁻(1⁻⁻)

参见

参考文献

引用

↑ J.J. Aubert et al. (1974)
↑ J.E. Augustin et al. (1974)
↑ S.W. Herb et al. (1977)
↑ C. Amsler et al. (2008): Charmonium States
↑ K.A. Olive et al. (2014): Particle listings – π^±
↑ K.A. Olive et al. (2014): Particle listings – π⁰
↑ K.A. Olive et al. (2014): Particle listings – η
↑ K.A. Olive et al. (2014): Particle listings – η′
↑ K.A. Olive et al. (2014): Particle listings – η_c
↑ K.A. Olive et al. (2014): Particle listings – η_b
↑ K.A. Olive et al. (2014): Particle listings – K^±
↑ K.A. Olive et al. (2014): Particle listings – K⁰
↑ K.A. Olive et al. (2014): Particle listings – K⁰_S
↑ ^14.0 ^14.1 K.A. Olive et al. (2014): Particle listings – K⁰_L
↑ K.A. Olive et al. (2014): Particle listings – D^±
↑ K.A. Olive et al. (2014): Particle listings – D⁰
↑ K.A. Olive et al. (2014): Particle listings – D^±_s
↑ K.A. Olive et al. (2014): Particle listings – B^±
↑ K.A. Olive et al. (2014): Particle listings – B⁰
↑ K.A. Olive et al. (2014): Particle listings – B⁰_s
↑ K.A. Olive et al. (2014): Particle listings – B^±_c
↑ ^22.0 ^22.1 K.A. Olive et al. (2014): Particle listings – ρ
↑ K.A. Olive et al. (2014): Particle listings – ω(782)
↑ K.A. Olive et al. (2014): Particle listings – φ
↑ K.A. Olive et al. (2014): Particle listings – J/Ψ
↑ K.A. Olive et al. (2014): Particle listings – ϒ(1S)
↑ ^27.0 ^27.1 K.A. Olive et al. (2014): Particle listings – K^∗(892)
↑ K.A. Olive et al. (2014): Particle listings – D^∗±(2010)
↑ K.A. Olive et al. (2014): Particle listings – D^∗0(2007)
↑ K.A. Olive et al. (2014): Particle listings – D^∗±_s
↑ ^31.0 ^31.1 K.A. Olive et al. (2014): Particle listings – B^∗
↑ K.A. Olive et al. (2014): Particle listings – B^∗_s
↑ K.A. Olive et al. (2014): Meson Summary Table

来源

K.A. Olive; et al. Review of Particle Physics. Chinese Physics C. 2014, 38 (9): 090001. 已忽略未知参数|collaboration= (帮助)
M.S. Sozzi. Parity. Discrete Symmetries and CP Violation: From Experiment to Theory. Oxford University Press. 2008a: 15–87. ISBN 0-19-929666-9.
M.S. Sozzi. Charge Conjugation. Discrete Symmetries and CP Violation: From Experiment to Theory. Oxford University Press. 2008a: 88–120. ISBN 0-19-929666-9.
M.S. Sozzi. CP-Symmetry. Discrete Symmetries and CP Violation: From Experiment to Theory. Oxford University Press. 2008c: 231–275. ISBN 0-19-929666-9.
C. Amsler; et al. Review of Particle Physics. Physics Letters B. 2008, 667 (1): 1–1340. Bibcode:2008PhLB..667....1A. doi:10.1016/j.physletb.2008.07.018. 已忽略未知参数|collaboration= (帮助)
S.S.M. Wong. Nucleon Structure. Introductory Nuclear Physics 2nd. John Wiley & Sons. 1998: 21–56. ISBN 0-471-23973-9.
R. Shankar. Principles of Quantum Mechanics 2nd. Plenum Press. 1994. ISBN 0-306-44790-8.
K. Gottfried, V.F. Weisskopf. Hadronic Spectroscopy: G-parity. Concepts of Particle Physics 2. Oxford University Press. 1986: 303–311. ISBN 0-19-503393-0.
J.W. Cronin. CP Symmetry Violation – The Search for its origin (PDF). Nobel Lecture. The Nobel Foundation. 1980 [2019-03-26].
V.L. Fitch. The Discovery of Charge – Conjugation Parity Asymmetry (PDF). Nobel Lecture. The Nobel Foundation. 1980 [2019-03-26].
S.W. Herb; et al. Observation of a Dimuon Resonance at 9.5 Gev in 400-GeV Proton-Nucleus Collisions. Physical Review Letters. 1977, 39 (5): 252–255. Bibcode:1977PhRvL..39..252H. doi:10.1103/PhysRevLett.39.252.
J.J. Aubert; et al. Experimental Observation of a Heavy Particle J. Physical Review Letters. 1974, 33 (23): 1404–1406. Bibcode:1974PhRvL..33.1404A. doi:10.1103/PhysRevLett.33.1404.
J.E. Augustin; et al. Discovery of a Narrow Resonance in e⁺e⁻ Annihilation. Physical Review Letters. 1974, 33 (23): 1406–1408. Bibcode:1974PhRvL..33.1406A. doi:10.1103/PhysRevLett.33.1406.
M. Gell-Mann. A Schematic of Baryons and Mesons. Physics Letters. 1964, 8 (3): 214–215. Bibcode:1964PhL.....8..214G. doi:10.1016/S0031-9163(64)92001-3.
E. Wigner. On the Consequences of the Symmetry of the Nuclear Hamiltonian on the Spectroscopy of Nuclei. Physical Review. 1937, 51 (2): 106–119. Bibcode:1937PhRv...51..106W. doi:10.1103/PhysRev.51.106.
W. Heisenberg. Über den Bau der Atomkerne I. Zeitschrift für Physik. 1932, 77 (1–2): 1–11. Bibcode:1932ZPhy...77....1H. doi:10.1007/BF01342433 （德语）.
W. Heisenberg. Über den Bau der Atomkerne II. Zeitschrift für Physik. 1932, 78 (3–4): 156–164. Bibcode:1932ZPhy...78..156H. doi:10.1007/BF01337585 （德语）.
W. Heisenberg. Über den Bau der Atomkerne III. Zeitschrift für Physik. 1932, 80 (9–10): 587–596. Bibcode:1933ZPhy...80..587H. doi:10.1007/BF01335696 （德语）.

外部链接

Particle Data Group – The Review of Particle Physics (2008)
Mesons made thinkable, an interactive visualisation allowing physical properties to be compared

[1] J.J. Aubert et al. (1974)

[2] J.E. Augustin et al. (1974)

[3] S.W. Herb et al. (1977)

[PDGTetraquarks2008-4] C. Amsler et al. (2008): Charmonium States

[PDGPion+--5] K.A. Olive et al. (2014): Particle listings – π^±

[PDGPion0-6] K.A. Olive et al. (2014): Particle listings – π⁰

[PDGEta-7] K.A. Olive et al. (2014): Particle listings – η

[PDGEtaPrime-8] K.A. Olive et al. (2014): Particle listings – η′

[PDGCharmedEta-9] K.A. Olive et al. (2014): Particle listings – η_c

[PDGBottomEta-10] K.A. Olive et al. (2014): Particle listings – η_b

[PDGKaon+-11] K.A. Olive et al. (2014): Particle listings – K^±

[PDGKaon0-12] K.A. Olive et al. (2014): Particle listings – K⁰

[PDGK-short-13] K.A. Olive et al. (2014): Particle listings – K⁰_S

[PDGK-long-14] 14.0 ^14.1 K.A. Olive et al. (2014): Particle listings – K⁰_L

[PDGD+-15] K.A. Olive et al. (2014): Particle listings – D^±

[PDGD0-16] K.A. Olive et al. (2014): Particle listings – D⁰

[PDGDs-17] K.A. Olive et al. (2014): Particle listings – D^±_s

[PDGB+-18] K.A. Olive et al. (2014): Particle listings – B^±

[PDGB0-19] K.A. Olive et al. (2014): Particle listings – B⁰

[PDGBs-20] K.A. Olive et al. (2014): Particle listings – B⁰_s

[PDGBc-21] K.A. Olive et al. (2014): Particle listings – B^±_c

[PDGRho-22] 22.0 ^22.1 K.A. Olive et al. (2014): Particle listings – ρ

[PDGOmegaMeson-23] K.A. Olive et al. (2014): Particle listings – ω(782)

[PDGPhi-24] K.A. Olive et al. (2014): Particle listings – φ

[PDGJ/Psi-25] K.A. Olive et al. (2014): Particle listings – J/Ψ

[PDGUpsilon-26] K.A. Olive et al. (2014): Particle listings – ϒ(1S)

[PDGKaon*-27] 27.0 ^27.1 K.A. Olive et al. (2014): Particle listings – K^∗(892)

[PDGD*+-28] K.A. Olive et al. (2014): Particle listings – D^∗±(2010)

[PDGD*0-29] K.A. Olive et al. (2014): Particle listings – D^∗0(2007)

[PDGD*s-30] K.A. Olive et al. (2014): Particle listings – D^∗±_s

[PDGB*-31] 31.0 ^31.1 K.A. Olive et al. (2014): Particle listings – B^∗

[PDGBs*-32] K.A. Olive et al. (2014): Particle listings – B^∗_s

[33] K.A. Olive et al. (2014): Meson Summary Table

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