22C ADOPTED LEVELS 15NDS 201507 22C H TYP=FUL$AUT=M. Shamsuzzoha Basunia$CIT=NDS 127, 69(2015)$ 22C 2 H CUT=1-Apr-2015$ 22C Q 2.155E+4 31 124 SY2.942E+4SY 2012WA38 22C cQ $|DS(n)=470(syst), |DS(p)=937(syst) 2012Wa38 22C c 1986Po13: First observation of {+22}C. Produced by 22C 2c {+181}Ta({+40}Ar,x), E=44 MeV/A; Measured residual yields, tof. 22C c 2010Ta04: {+1}H({+22}C,{+22}C'), E=41 MeV/nucleon; {+22}C beam was 22C 2c produced from {+40}Ar fragmentation by Ta({+40}Ar,X), E=63 22C 3c MeV/nucleon, reaction products were separated using RIPS fragment 22C 4c separator at RIKEN; Liquid hydrogen target; Measured reaction cross 22C 5c section by transmission method, deduced rms radius. 22C L 0.0 0+ 6.1 MS +14-12 22C 2 L %B-=100$%B-N=61 +14-13$%B-2N LT 37 22C cL T$From 2003Yo02. Other value: 9 ms {I3} (1998Yo06). 22C cL %B-N$From 2003Yo02. Total neutron emission probability p{-n}>60 22C 2cL (1998Yo06) 22C cL %B-2N$From 2003Yo02 22C cL $Measured reaction cross section=1.34 b {I27} (2010Ta04 - assuming 22C 2cL no excited states in {+22}C). 22C cL $Deduced rms radius=5.4 fm {I9} (2010Ta04) 22C cL $Halo structure of {+22}C is suggested in 2010Ta04 from comparison of 22C 2cL measured reaction cross sections for {+22}C, {+20}C and {+19}C 22C 3cL isotopes and from deviation of systematic trend for measured rms 22C 4cL radius in C isotopes. The two-valence neutrons in {+22}C 22C 5cL preferentially occupy the 1s{-1/2} orbital (from Glauber model 22C 6cL calculation - 2010Ta04). Also supported in 2012Ko38 from two-neutron 22C 7cL removal reaction studies of {+22}C on a carbon target. 22C cL $Two-neutron removal cross section 266 mb {I19}, measured from the 22C 2cL C({+22}C,{+20}C), E=240 MeV/A, knock-out reaction (2012Ko38).