26NA 2H(25NA,PG):XUNDL-8 2016WI03 201609 26NA c Compiled (unevaluated) dataset from 2016Wi03 26NA c Phys. Lett. B 759, 417 (2016) 26NA c Compiled by G. G~urdal (Millsaps College), August 25, 2016 26NA c Inverse kinematics reaction: Beam {+25}Na, Target: (Cd{-2}){-n}. The 26NA2c {+25}Na beam was accelerated to 125.0 MeV at ISAC-II facility at 26NA3c TRIUMF. A self-supporting 0.5 mg/cm{+2} (Cd{-2}){-n} target was used. 26NA4c The charged-particles and the reaction residues were detected using 26NA5c SHARC silicon strip detector array. The |g-rays were detected using 26NA6c eight-segmented germanium clover detectors of the TIGRESS array. A 30 26NA7c |mm Al foil followed by a thin plastic scintillator detector 26NA8c (TRIFOIL) were installed 400 mm downstream of the target to identify 26NA9c events registered by SHARC arising from the fusion-evaporation 26NAac reactions initiated on the carbon in the target. Measured: 26NAbc E{-particle}, particle(|q), E|g, I|g, E{-x}, absolute differential 26NAcc cross sections, transferred L-values and the spectroscopic factors. 26NAdc Comparison of the measured differential cross sections with the 26NAec reaction calculations using TWOFNR code employing the Adiabatic 26NAfc Distorted Wave Approximation (ADWA) and the experimental excitation 26NAgc energies and the spectroscopic factors with Shell Model calculations. 26NA cL E$From a least-squares fit to E|g with |DE|g = 1 keV taken by 26NA2cL compiler. 26NA cL J$From the deduced L-values in 2016Wi03, decay pattern and comparison 26NA2cL with the Shell Model calculations, unless otherwise stated. 26NA cL J(A)$From Adopted Levels of {+26}Na in ENSDF database. 26NA cL L$Deduced from the experimental differential cross sections and the 26NA2cL calculated cross sections using ADWA reaction calculations. The 26NA3cL L-values are from single L analysis. 26NA cL S$Deduced by normalizing the calculated differential cross sections 26NA2cL to the data for dominating single L-transfer. |DS = 20% dominated by 26NA3cL the reaction theory contribution. The statistical errors are several 26NA4cL percent except where noted otherwise. 26NA cG E$From figure 6 in 2016Wi03. 26NA cG RI$Branching ratios are from 2016Wi03 26NA PN 6 26NA L 0 3+ A 26NA L 82.6 7 1+ 9 US 2 A 26NA cL T$from Adopted Levels of {+26}Na in ENSDF database. 26NA cL E$deduced from |g-decays feeding both this level and the ground state. 26NA L 233.0 6 2+ 0 0.13 3 A 26NA cL S$shell model calculations give S = 0.15 (for 1s{-1/2}). 26NA cL L$other: 0+2 also possible. 26NA G 151 43 26NA G 233 57 26NA L 406.5 5 2+ 0 0.33 7 A 26NA cL S$shell model calculations give S = 0.27 for (1s{-1/2}). 26NA cL L$other: 0+2 also possible. 26NA G 174 2.5 26NA G 323 12.5 26NA G 407 85 26NA L 1507.8 8 (1+) A 26NA G 1102 10 LT 26NA G 1274 100 26NA cG RI$~~100% 26NA L 1806.2 6 (3+) 2 0.37 7 26NA cL S$shell model calculations give S = 0.33 for (0d{-3/2}) and S = 0.02 26NA2cL (for 0d{-5/2}). 26NA cL L$other: 2+0 also possible. 26NA G 1400 7 26NA G 1573 18 26NA G 1806 75 26NA L 2118.1 8 5+ 2 0.16 3 26NA cL S$shell model calculations give S = 0.08 (for 0d{-5/2}). 26NA G 2118 100 26NA L 2192.8 7 26NA G 1786 20 LT 26NA G 2193 100 26NA cG RI$~~100% 26NA L 2225.2 7 (4+) 2 0.43 9 26NA cL S$shell model calculations give S = 0.51 (for 0d{-3/2}) and S = 0.01 26NA2cL (for 0d{-5/2}) 26NA G 419 6 26NA G 2225 94 26NA L 2426.8 7 26NA G 2020 50 26NA G 2427 50 26NA L 2853.4 7 (2-) 26NA G 2620 34 26NA G 2771 41 26NA G 2853 25 26NA L 3133.9 7 3- 1 0.07 1 26NA cL S$The statistical error is 10%. The shell model calculations give S = 26NA2cL 0.15 (for 1p{-3/2}), 0.02 (for 1p{-1/2}). 26NA cL L$other: 1+3 also possible. 26NA G 2727 34 26NA G 3134 66 26NA L 3509.2 8 4- 1 0.30 6 26NA cL S$shell model calculations give S = 0.44 (for 1p{-3/2}) 26NA cL L$other: 1+3 also possible. 26NA G 3509 100 26NA L 4303.2 8 (5-) 26NA G 794 47 26NA G 2078 33 26NA G 2185 20 26NA L 4915.3 8 (6-) 26NA G 612 49 26NA G 1406 19 26NA G 2797 31 26NA L 5011.4 12 (3-,4-) 26NA G 3205 100 26NA 26NA B-:MOMM1:XUNDL-9 2020Ha38 202111 26NA c Compiled (unevaluated) dataset from 2020Ha38: Phys. Rev. X 10, 041061 26NA2c (2020). 26NA c Compiled by S. Zhu, NNDC-BNL, April 16, 2021 26NA c 2020Ha38: Magnetic moment |m of {+26}Na, which was produced by 26NA2c impinging a 1.4-GeV proton beam on a UCx target every 3.6 s, was 26NA3c measured using |b-NMR technique at ISOLDE at CERN in reference to the 26NA4c magnetic moment of {+23}Na with a value of 2.217 {I500} |m{-N} {I7} 26NA5c derived from NMR measurement after taking approriate corrections. 26NA cL J,T$From Adopted Levels of {+26}Na (2016Ba18). 26NA L 0 3+ 1.07128 S 25 26NA2 L MOMM1=2.849390 20 26NA cL MOMM1$deduced from R=|m({+26}Na)/|m({+23}Na)=1.284956 {I8} determined 26NA2cL in |b-NMR measurement.