${{\mathit N}}$ BARYONS ($\mathit S$ = 0, $\mathit I$ = 1/2)

${{\mathit p}}$, ${{\mathit N}^{+}}$ = ${\mathit {\mathit u}}$ ${\mathit {\mathit u}}$ ${\mathit {\mathit d}}$; ${{\mathit n}}$, ${{\mathit N}^{0}}$ = ${\mathit {\mathit u}}$ ${\mathit {\mathit d}}$ ${\mathit {\mathit d}}$
See related reviews:
Baryon Decay Parameters
${{\mathit N}}$ and ${{\mathit \Delta}}$ Resonances
${{\mathit p}}$
$1/2^{+ }$ ****
${{\mathit n}}$
$1/2^{+ }$ ****
${{\mathit N}{(1440)}}$
$1/2^{+ }$ ****
${{\mathit N}{(1520)}}$
$3/2^{- }$ ****
${{\mathit N}{(1535)}}$
$1/2^{- }$ ****
${{\mathit N}{(1650)}}$
$1/2^{- }$ ****
${{\mathit N}{(1675)}}$
$5/2^{- }$ ****
${{\mathit N}{(1680)}}$
$5/2^{+ }$ ****
${{\mathit N}{(1700)}}$
$3/2^{- }$ ***
${{\mathit N}{(1710)}}$
$1/2^{+ }$ ****
${{\mathit N}{(1720)}}$
$3/2^{+ }$ ****
${{\mathit N}{(1860)}}$
$5/2^{+ }$ **
${{\mathit N}{(1875)}}$
was ${{\mathit N}{(2080)}}$ 		$3/2^{- }$ ***
${{\mathit N}{(1880)}}$
$1/2^{+ }$ ***
${{\mathit N}{(1895)}}$
was ${{\mathit N}{(2090)}}$ 		$1/2^{- }$ ****
${{\mathit N}{(1900)}}$
$3/2^{+ }$ ****
${{\mathit N}{(1990)}}$
$7/2^{+ }$ **
${{\mathit N}{(2000)}}$
was ${{\mathit N}{(1900)}}$ 		$5/2^{+ }$ **
${{\mathit N}{(2040)}}$
$3/2^{+ }$ *
${{\mathit N}{(2060)}}$
was ${{\mathit N}{(2200)}}$ 		$5/2^{- }$ ***
${{\mathit N}{(2100)}}$
$1/2^{+ }$ ***
${{\mathit N}{(2120)}}$
$3/2^{- }$ ***
${{\mathit N}{(2190)}}$
$7/2^{- }$ ****
${{\mathit N}{(2220)}}$
$9/2^{+ }$ ****
${{\mathit N}{(2250)}}$
$9/2^{- }$ ****
${{\mathit N}{(2300)}}$
$1/2^{+ }$ **
${{\mathit N}{(2570)}}$
$5/2^{- }$ **
${{\mathit N}{(2600)}}$
$11/2^{- }$ ***
${{\mathit N}{(2700)}}$
$13/2^{+ }$ **
${{\mathit N}}(\sim{}$3000 Region) Partial-Wave Analyses
 
****   Existence is certain, and properties are at least fairly explored.
***   Existence ranges from very likely to certain, but further confirmation is desirable and/or quantum numbers, branching fractions, etc. are not well determined.
**   Evidence of existence is only fair.
*   Evidence of existence is poor.