\begin{table}%t2 \caption{\label{tab:sample}Our sample.} \begin{tabular}{rrrrrrcrrrrrrrrl} \hline\hline {\it JW} & $I_{\rm C}$ & \tiny{$V-I_{\rm C}$} & \tiny{$\log T_{\rm eff}$} & $R$ & $M$ & Spec. type & \tiny{$\Delta (I_{\rm C}-K)$} & $W_{\rm Ca~II}$ & \tiny{10\% $W_{\rm H\alpha}$} & $v\sin i$ & $V_{\rm rad}$ & $\log\frac{L_{\rm X}}{L_{\rm bol}}$ & $P_{\rm rot}$ & \tiny{[3.6]--[8.0]}& Source \\ & (mag) & & (K) & ($R_{\odot}$) & ($M_{\odot}$) & & & (\AA) & \tiny{(km s$^{-1}$)} & (km s$^{-1})$ & (km s$^{-1}$) & & (days) & & \\ \hline 38 & 15.6 & 3.73 & 3.494 & 1.48 & 0.14 & M5 & $-$0.35 & $-$1.0 & 62.2 & $<$9.0 & 24.80 $\pm$ 0.28 & & & & 1; 7, 8\\ 43 & 15.8 & 3.73 & 3.483 & 1.27 & 0.11 & M5.5 & $-$0.33 & 1.5 & 64.2 & 14.1 $\pm$ 2.6 & 27.21 $\pm$ 0.69 & & & & 1; 7, 8\\ 48 & 15.5 & 4.60 & 3.471 & 2.49 & 0.14 & M6 & $-$0.69 & 1.0 & 62.1 & 25.0 $\pm$ 7.7 & 27.10 $\pm$ 4.66 & & & & 1; 7, 8\\ 50$^{*,\rm a}$& 11.7 & 1.75 & 3.602 & 3.46 & 0.34 &K1e,G-Ke,K7.3 & 1.37 & $-$14.6 & & 20.9 $\pm$ 1.2 & $-$20.87 $\pm$ 1.20 & & & & 1, 2, 3; 7, 8\\ & & & & & & & & & & 23.8 $\pm$ 1.4 & 66.38 $\pm$ 1.40 & & & & \\ & & & & & & & & & & &22.75 $\pm$ 1.80$^{b}$ & & & & \\ 52 & 14.6 & 3.64 & 3.494 & 2.25 & 0.15 & M5 & $-$0.03 & 0.0 & 79.1 & $<$9.0 & 24.43 $\pm$ 0.54 & & & & 1; 7, 8 \\ 54$^{a}$ & 15.3 & 3.58 & 3.494 & 1.57 & 0.14 & M5 & $-$0.04 & 0.0 & 62.2 & $<$9.0 & 4.80 $\pm$ 0.25 & & & & 1; 7, 8\\ & & & & & & & & & & 18.8 $\pm$ 1.1 & 42.01 $\pm$ 1.07 & & & & \\ & & & & & & & & & & &23.40 $\pm$ 1.10$^{b}$ & & & & \\ 70 & 15.3 & 3.89 & 3.494 & 1.96 & 0.14 & M5 & $-$0.35 & 0.0 & 65.8 & 39.7 $\pm$ 8.7 & 19.38 $\pm$ 4.72 & $-$4.1 & 1.50 & $-$0.12 & 1; 9, 7, 8, 13 \\ 99$^{*,\rm c}$& 13.1 & 2.51 & 3.562 & 2.92 & 0.24 & M1 & 0.50 & 1.4 & & 16.9 $\pm$ 0.9 & 66.34 $\pm$ 0.93 & & 1.70 & 0.57 & 1; 9, 7, 8, 13\\ 110 & 16.6 & & 3.483 & 0.78 & 0.09 & M4-7 & & 0.0 & 61.9 & $<$9.0 & 28.01 $\pm$ 0.96 & $-$3.7 & & & 1; 7, 8 \\ 118 & 14.8 & 3.09 & 3.483 & 1.79 & 0.13 & M5.5 & $-$0.32 & 0.0 & 59.6 & 13.4 $\pm$ 3.0 & 24.49 $\pm$ 0.35 & $-$4.0 & 1.07 & & 1; 9, 7, 8 \\ 120 & 14.3 & 3.01 & 3.500 & 1.80 & 0.16 & M4.5 & $-$0.06 & 1.0 & 71.2 & 27.4 $\pm$ 5.3 & 22.51 $\pm$ 1.25 & $-$3.9 & & & 1; 11, 7, 8 \\ 122$^{*}$ & 14.4 & 3.02 & 3.494 & 1.85 & 0.14 & M5 & $-$0.17 & 0.0 & 75.6 & 52.4 $\pm$ 7.3 & 11.68 $\pm$ 1.98 & $-$3.5 & 0.98 & & 1; 9, 7, 8 \\ 145 & 15.9 & 3.18 & 3.483 & 1.10 & 0.10 & M5.3 & 0.55 & & 62.1 & $<$9.0 & 27.72 $\pm$ 0.52 & $-$2.3 & 2.10 & & 3; 9, 7, 8 \\ 147 & 14.8 & 3.27 & 3.494 & 1.57 & 0.14 & M5 & 0.06 & 0.0 & 61.0 & 13.6 $\pm$ 1.3 & 26.05 $\pm$ 0.93 & $-$3.5 & & & 1; 7, 8 \\ 155 & 14.9 & 3.26 & 3.500 & 1.52 & 0.15 & M4.5 & 0.15 & 2.9 & 70.3 & $<$9.0 & 21.56 $\pm$ 1.86 & $-$4.1 & & & 1; 7, 8 \\ 168$^{d}$ & 15.0 & 3.16 & 3.483 & 1.64 & 0.12 & M5.5 & $-$0.06 & 0.0 & 77.5 & 78.4 $\pm$ 10.5 & 5.10 $\pm$ 4.10 & $-$4.0 & 0.92 & 0.07 & 1; 9, 7, 8, 13 \\ 172 & 16.2 & 3.45 & 3.500 & 0.99 & 0.14 & M4.5 & 1.41 & 0.0 & 63.6 & 29.5 $\pm$ 2.7 & 26.71 $\pm$ 4.63 & $-$3.6 & 1.43 & & 1; 9, 7, 8 \\ 179 & 16.6 & & 3.483 & 0.77 & 0.09 & M5.5 & & 0.0 & 71.7 & $<$9.0 & 25.43 $\pm$ 1.01 & & & & 1; 7, 8 \\ 180 & 14.4 & 2.94 & 3.494 & 1.84 & 0.14 & M5 & 0.05 & 0.2 & 117.2 & 40.3 $\pm$ 1.3 & 16.33 $\pm$ 1.73 & & & & 1; 7, 8 \\ 183 & 14.5 & 3.45 & 3.494 & 2.05 & 0.15 & M5 & 0.20 & 0.0 & 67.0 & 41.2 $\pm$ 2.6 & 22.14 $\pm$ 2.17 & $-$4.2 & 1.51 & & 1; 9, 7, 8\\ 185 & 16.1 & 3.33 & 3.483 & 1.01 & 0.10 & M5.5 & $-$0.11 & & 67.5 & 20.3 $\pm$ 5.0 & 25.21 $\pm$ 1.78 & & 1.80 & & 1; 9, 7, 8 \\ 189 & 15.2 & 3.43 & 3.494 & 1.43 & 0.14 & M4.5IV-5V & 0.40 & 0.0 & 68.8 & 12.3 $\pm$ 2.2 & 23.89 $\pm$ 1.06 & $-$3.6 & & & 1; 7, 8 \\ 190 & 15.3 & & 3.471 & 1.67 & 0.11 & M6 & & 2.0 & 67.0 & 10.7 $\pm$ 2.1 & 26.71 $\pm$ 0.65 & $-$4.5 & & & 1; 7, 8 \\ 228 & 16.7 & 3.68 & 3.494 & 0.89 & 0.12 & M5e & 0.18 & $-$0.8 & 63.2 & $<$9.0 & 22.92 $\pm$ 0.80 & & 3.22 & 2.21 & 1; 9, 7, 8, 13 \\ 230 & 14.6 & & 3.471 & 2.36 & 0.14 & M6 & & 0.0 & 67.7 & 11.9 $\pm$ 1.1 & 28.90 $\pm$ 0.76 & $-$4.5 & & & 1; 7, 8 \\ 231 & 15.6 & & 3.471 & 1.49 & 0.10 & M6 & & 0.0 & 54.1 & $<$9.0 & 26.31 $\pm$ 1.13 & & & & 1; 7, 8 \\ 234 & 15.9 & 2.88 & 3.500 & 0.86 & 0.13 & M4.5 & 0.41 & 0.0 & 69.1 & 9.7 $\pm$ 4.0 & 23.60 $\pm$ 1.54 & $-$4.3 & & & 1; 7, 8 \\ 237 & 15.3 & 3.22 & 3.509 & 1.31 & 0.17 & M4 & 0.75 & 0.0 & 56.1 & $<$9.0 & 25.07 $\pm$ 1.28 & $-$3.7 & 5.22 & 1.52 & 1; 9, 7, 8, 13 \\ 239$^{a}$& 12.7 & 2.25 & 3.555 & 2.73 & 0.24 & M1.5,M4: & 0.38 & 1.5 & & 19.2 $\pm$ 1.1 & $-$2.29 $\pm$ 1.09 & & 4.45 & & 1, 6; 9, 7, 8 \\ & & & & & & & & & & 16.1 $\pm$ 0.9 & 70.06 $\pm$ 0.88 & & & & \\ & & & & & & & & & & &33.89 $\pm$ 1.40$^{b}$ & & & & \\ 244$^{**}$& 15.5 & 2.91 & 3.494 & 1.15 & 0.13 & M5 & 0.15 & $-$1.7 & 63.2 & 15.1 $\pm$ 1.6 & 20.78 $\pm$ 1.27 & $-$3.8 & & & 1; 7, 8\\ 257 & 14.5 & 2.64 & 3.500 & 1.67 & 0.15 & M4.5 & 0.15 & 0.0 & 63.4 & $<$9.0 & 26.28 $\pm$ 0.68 & $-$4.2 & 5.22 & 2.16 & 1; 9, 7, 8, 13 \\ 276$^{a}$& 14.0 & 3.04 & 3.500 & 2.15 & 0.15 & M4-4.5 & 0.10 & 1.1 & 61.5 & 18.6 $\pm$ 1.1 & 4.41 $\pm$ 1.05 & $-$4.0 & & & 1; 7, 8 \\ & & & & & & & & & & 10.7 $\pm$ 0.5 & 42.20 $\pm$ 0.50 & & & & \\ & & & & & & & & & & &23.30 $\pm$ 1.16$^{b}$ & & & & \\ \hline 288 & 15.4 & 2.73 & 3.494 & 1.17 & 0.13 & M5 & 0.26 & 0.9 & 63.4 & $<$9.0 & 26.71 $\pm$ 0.58 & $-$4.5 & & & 1; 7, 8 \\ 293 & 14.5 & 3.34 & 3.494 & 1.87 & 0.14 & M5 & 0.13 & 0.5 & 103.7 & 49.7 $\pm$ 9.4 & 20.71 $\pm$ 2.14 & & 0.98 & & 1; 9, 7, 8 \\ 294 & 15.4 & 3.50 & 3.500 & 1.45 & 0.15 & M4.5 & 0.05 & 0.0 & 67.2 & 16.7 $\pm$ 2.5 & 25.74 $\pm$ 1.05 & & 2.57 & & 1; 9, 7, 8 \\ 296 & 14.3 & 3.31 & 3.500 & 2.10 & 0.16 & M4.5e & 0.67 & $-$3.2 & 77.0 & $<$9.0 & 23.52 $\pm$ 0.45 & $-$4.5 & & & 1; 7, 8\\ 297$^{e}$ & 16.7 & & 3.483 & 0.75 & 0.09 & M5.5 & & 0.0 & 56.6 & 16.1 $\pm$ 2.8 & 26.25 $\pm$ 4.92 & & & & 1; 7, 8 \\ 298 & 16.1 & & 3.471 & 1.20 & 0.09 & M6 & & & 60.8 & $>$9.0 & 31.33 $\pm$ 7.60 & $-$4.0 & & & 1; 7 \\ 304 & 15.1 & 3.26 & 3.494 & 1.39 & 0.13 & M5 & 0.35 & 0.6 & 75.2 & 18.7 $\pm$ 1.6 & 22.57 $\pm$ 1.30 & $-$3.7 & 3.03 & & 1; 9, 7, 8 \\ 318 & 15.9 & 3.32 & 3.500 & 0.99 & 0.14 & M4.5 & 0.42 & 0.8 & 66.1 & 11.2 $\pm$ 1.4 & 31.17 $\pm$ 0.68 & & 3.40 & & 1; 9, 7, 8 \\ 322$^{**}$& 15.0 & & 3.500 & 1.33 & 0.15 & M4.5 & & $-$1.8 & 65.5 & 9.9 $\pm$ 3.7 & 29.53 $\pm$ 1.06 & $-$4.1 & & & 1; 7, 8\\ 333 & 14.7 & 1.92 & 3.483 & 1.89 & 0.13 & M5-6 & 0.54 & 3.7 & 66.3 & $<$9.0 & 27.10 $\pm$ 0.61 & $-$3.7 & & & 1; 7, 8 \\ 353 & 14.9 & 3.73 & 3.494 & 2.06 & 0.15 & M5 & 0.13 & 1.3 & 60.7 & $<$9.0 & 24.63 $\pm$ 0.84 & & & & 1; 7, 8 \\ 357 & 14.3 & 3.02 & 3.500 & 1.83 & 0.16 & M4.5 & $-$0.00 & 0.0 & 65.1 & 14.6 $\pm$ 1.5 & 26.69 $\pm$ 0.66 & $-$3.8 & & & 1; 7, 8 \\ 366 & 15.0 & 3.98 & 3.497 & 2.43 & 0.15 & M4.5-5e & 0.05 & $-$2.7 & 72.4 & 12.3 $\pm$ 3.8 & 22.89 $\pm$ 1.18 & $-$5.2 & & & 1; 7, 8, 10 \\ 379 & 15.2 & 3.87 & 3.483 & 1.84 & 0.13 & M5.4 & 0.07 & & 70.2 & $<$9.0 & 24.03 $\pm$ 0.51 & & 1.30 & 1.71 & 3; 9, 7, 8, 13 \\ 389 & 15.8 & 3.64 & 3.488 & 1.21 & 0.12 & M4.5-6 & 1.44 & 4.0 & 60.3 & $<$9.0 & 22.06 $\pm$ 2.05 & $-$3.0 & 5.54 & & 1; 9, 7, 8, 10 \\ 392 & 15.2 & & 3.465 & 1.93 & 0.11 & M6-6.5 & & 0.0 & 63.7 & $<$9.0 & 23.55 $\pm$ 0.63 & $-$3.8 & & & 1; 7, 8 \\ 402 & 15.3 & 3.73 & 3.483 & 1.62 & 0.12 & M5.5 & 0.72 & $-$1.4 & 59.5 & $<$9.0 & 25.74 $\pm$ 1.11 & & 5.00 & 1.41 & 1; 9, 7, 8, 13 \\ 404 & 14.7 & 3.38 & 3.494 & 1.81 & 0.14 & M4.5-5.5 & & & 72.9 & 11.4 $\pm$ 1.8 & 25.99 $\pm$ 1.44 & & & & 1; 7, 10 \\ 446$^{f}$& 16.2 & 2.98 & 3.500 & 0.77 & 0.13 & M4.5 & 0.04 & 0.0 & 64.6 & 36.4 $\pm$ 10.7 & 20.92 $\pm$ 3.73 & $-$3.8 & & & 1; 7, 8 \\ 469 & 14.5 & 2.88 & 3.494 & 1.79 & 0.14 & M4.5-5.5 & $-$0.03 & 0.0 & 64.2 & 10.9 $\pm$ 1.6 & 29.69 $\pm$ 0.85 & $-$4.1 & & & 1; 7, 8 \\ 486 & 15.4 & 3.82 & 3.500 & 1.81 & 0.16 & M4.5 & $-$0.07 & 0.0 & 62.4 & $<$9.0 & 27.10 $\pm$ 0.48 & $-$4.2 & & & 1; 7, 8 \\ 500$^{a}$& 14.8 & 3.71 & 3.483 & 1.97 & 0.13 & M5.5 & 0.19 & 0.5 & 72.9 & 9.8 $\pm$ 0.4 & 17.40 $\pm$ 0.44 & $-$3.9 & & & 1; 7, 8, 10\\ & & & & & & & & & & $<$9.0 & 43.63 $\pm$ 0.14 & & & & \\ & & & & & & & & & & & 30.52 $\pm$ 0.46$^{b}$ & & & & \\ 510 & 15.3 & 3.93 & 3.494 & 2.01 & 0.14 & M5 & $-$0.10 & $-$0.4 & 57.8 & 3.2 $\pm$ 3.7 & 29.03 $\pm$ 1.68 & $-$4.3 & & & 1; 7, 8, 10 \\ 517 & 15.0 & 3.22 & 3.500 & 1.40 & 0.15 & M4.5 & $-$0.08 & 0.0 & 61.1 & 50.5 $\pm$ 9.6 & 21.98 $\pm$ 3.92 & $-$4.5 & 0.85 & & 1; 11, 7, 8 \\ 523 & 15.8 & 3.75 & 3.500 & 1.43 & 0.15 & M4.5 & 0.04 & 1.7 & 61.9 & 11.3 $\pm$ 1.3 & 23.23 $\pm$ 1.00 & $-$4.3 & & & 1; 7, 8 \\ 530 & 15.3 & 3.44 & 3.494 & 1.40 & 0.13 & M5 & $-$0.22 & 0.7 & 77.3 & 58.2 $\pm$ 0.8 & 20.69 $\pm$ 2.30 & & & & 1; 7, 8 \\ 545 & 15.2 & 3.42 & 3.494 & 1.41 & 0.13 & M5 & $-$0.09 & 0.0 & 94.3 & 21.1 $\pm$ 2.0 & 27.07 $\pm$ 1.61 & & 1.71 & & 1; 11, 7, 8 \\ 559 & 14.7 & 4.17 & 3.483 & 2.91 & 0.16 & M5.5e & $-$0.31 & $-$5.1 & 78.2 & 11.1 $\pm$ 2.1 & 25.19 $\pm$ 1.30 & $-$3.5 & 2.27 & & 1; 12, 7, 8, 10 \\ 573 & 15.9 & 2.83 & 3.500 & 0.89 & 0.13 & M4.5 & 1.41 & 0.0 & 57.8 & $<$9.0 & 23.79 $\pm$ 0.94 & $-$3.7 & & & 1; 7, 8 \\ 574 & 14.8 & 2.88 & 3.500 & 1.45 & 0.15 & M4.5 & 3.17 & & 78.4 & 11.9 $\pm$ 1.3 & 24.08 $\pm$ 1.51 & & & & 1; 7, 8 \\ 577 & 15.3 & 3.58 & 3.483 & 1.43 & 0.11 & M5.5 & 0.17 & 1.0 & 62.4 & 9.1 $\pm$ 1.3 & 23.33 $\pm$ 0.56 & $-$3.7 & & & 1; 7, 8 \\ 615 & 16.3 & & 3.471 & 1.05 & 0.08 & M6 & & $-$4.5 & 57.9 & $<$9.0 & 23.26 $\pm$ 1.33 & & & & 1; 7, 8 \\ 635 & 15.9 & 4.10 & 3.500 & 1.80 & 0.16 & M4.5 & 2.16 & 0.0 & 58.3 & 18.3 $\pm$ 0.9 & 27.82 $\pm$ 2.06 & & 4.12 & 1.63 & 1; 9, 7, 8, 13 \\ 647 & 13.7 & 2.31 & 3.494 & 2.66 & 0.15 & M5e & & $-$5.0 & 171.7 & 10.2 $\pm$ 1.1 & 24.79 $\pm$ 1.17 & $-$3.4 & & & 1; 7, 8 \\ 653 & 15.5 & 3.32 & 3.465 & 1.70 & 0.11 & M6-M6.5 & $-$0.12 & 0.0 & 61.6 & 17.3 $\pm$ 1.7 & 24.11 $\pm$ 1.58 & & & & 1; 7, 8 \\ 663 & 14.6 & 2.36 & 3.500 & 1.63 & 0.15 & M4.5 & 1.02 & 2.4 & 62.8 & $<$9.0 & 27.82 $\pm$ 0.50 & $-$3.5 & 1.31 & & 1; 9, 7, 8 \\ 669$^{*, \rm d}$& 10.8 & 1.67 & 3.708 & 4.66 & 2.13 &G8,$<$K5,K3,K1-2& 0.14 & 1.8 & & 65.0 $\pm$ 6.0 & 24.60 $\pm$ 2.50 & & 1.81 & & 1, 2, 4, 5; 12, 7, 8, 10\\ 689$^{c}$ & 16.9 & & 3.483 & 0.69 & 0.08 & M5.5 & & 0.0 & 57.9 & 21.6 $\pm$ 1.3 & 21.84 $\pm$ 1.26 & & & & 1; 7, 8 \\ 715 & 15.3 & 3.46 & 3.471 & 1.70 & 0.11 & M6,M5 & $-$0.08 & 0.0 & 59.2 & $<$9.0 & 26.03 $\pm$ 0.99 & $-$3.5 & & 1.31 & 1, 6; 7, 8, 13 \\ 716 & 14.4 & 2.88 & 3.500 & 1.73 & 0.15 & M4.5e & 1.15 & $-$2.7 & 61.6 & 10.2 $\pm$ 3.0 & 25.14 $\pm$ 1.21 & $-$2.9 & 3.95 & 2.05 & 1; 9, 7, 8, 13 \\ \hline 755 & 15.1 & 3.79 & 3.460 & 2.18 & 0.11 & M6.5 & $-$0.09 & 0.0 & 59.0 & 12.7 $\pm$ 4.3 & 26.45 $\pm$ 0.92 & $-$4.2 & & & 1; 7, 8 \\ 763 & 16.4 & 2.54 & 3.494 & 0.73 & 0.11 & M5 & 0.97 & 0.8 & 59.1 & $<$9.0 & 23.72 $\pm$ 0.72 & $-$3.7 & & & 1; 7, 8 \\ 807 & 15.3 & & 3.471 & 1.68 & 0.11 & M6 & & 2.1 & 63.1 & 11.1 $\pm$ 2.1 & 24.84 $\pm$ 0.64 & $-$3.8 & & & 1; 7, 8 \\ 817 & 13.8 & 3.04 & 3.500 & 2.37 & 0.15 & M4.5 & 0.22 & & 60.2 & 41.6 $\pm$ 3.8 & 24.50 $\pm$ 6.11 & $-$3.9 & 2.23 & & 3; 9, 7, 8 \\ 823 & 13.9 & 3.28 & 3.494 & 2.40 & 0.15 & M5 & 0.25 & 0.0 & 58.0 & $<$9.0 & 25.58 $\pm$ 0.53 & $-$3.7 & 9.00 & & 1; 9, 7, 8 \\ 840$^{a}$& 14.3 & 2.98 & 3.494 & 1.97 & 0.14 & M5 & 0.17 & 0.0 & 101.0 & 9.5 $\pm$ 0.4 &$-$14.25 $\pm$ 0.42 & & & & 1; 7, 8 \\ & & & & & & & & & & 5.3 $\pm$ 0.1 & 61.74 $\pm$ 0.12 & & & & \\ & & & & & & & & & & & 23.75 $\pm$ 0.44$^{b}$ & & & & \\ 846 & 16.1 & 4.13 & 3.500 & 1.67 & 0.15 & M4.5 & 0.82 & 0.0 & 45.9 & 12.0 $\pm$ 2.9 & 26.13 $\pm$ 2.20 & & 5.46 & & 1; 9, 7, 8 \\ 859 & 15.0 & & 3.494 & 1.44 & 0.14 & M5 & & $-$2.6 & 52.5 & 15.3 $\pm$ 2.4 & 25.39 $\pm$ 1.05 & $-$2.5 & 3.60 & & 1; 9, 7, 8 \\ 862 & 15.5 & 3.80 & 3.471 & 1.57 & 0.11 & M6e & 0.24 & $-$4.5 & 62.1 & $<$9.0 & 27.33 $\pm$ 0.67 & & 3.49 & & 1; 9, 7, 8 \\ 865 & 14.3 & 3.60 & 3.494 & 2.45 & 0.15 & M5 & 0.01 & 1.5 & 55.7 & $<$9.0 & 23.81 $\pm$ 0.43 & $-$4.0 & & & 1; 7, 8 \\ 872 & 15.2 & 3.24 & 3.494 & 1.32 & 0.13 & M5 & 0.60 & 0.4 & 54.9 & 11.9 $\pm$ 1.6 & 26.42 $\pm$ 2.50 & $-$3.5 & 4.19 & & 1; 9, 7, 8 \\ 878 & 14.4 & 3.74 & 3.471 & 2.51 & 0.14 & M6 & $-$0.06 & 0.0 & 59.0 & 14.3 $\pm$ 1.7 & 27.03 $\pm$ 1.14 & $-$3.2 & 5.54 & 1.25 & 1; 9, 7, 8, 13 \\ 898 & 14.1 & 3.30 & 3.494 & 2.22 & 0.15 & M5 & 0.07 & 0.0 & 53.4 & 13.1 $\pm$ 0.6 & 29.12 $\pm$ 0.63 & $-$3.2 & & & 1; 7, 8 \\ 908 & 14.4 & 3.05 & 3.500 & 1.78 & 0.15 & M4.5 & 0.02 & 0.8 & 148.8 & $<$9.0 & 28.25 $\pm$ 0.58 & & & & 1; 7, 8 \\ 929 & 15.9 & 3.82 & 3.483 & 1.32 & 0.11 & M5.5 & $-$0.37 & 0.0 & 61.1 & 39.3 $\pm$ 5.9 & 25.47 $\pm$ 3.24 & $-$3.7 & 0.81 & & 1; 9, 7, 8 \\ 937 & 15.6 & 3.68 & 3.471 & 1.47 & 0.10 & M6 & 0.89 & $-$4.8 &150.0 & 15.4 $\pm$ 1.8 & 23.13 $\pm$ 1.63 & & & & 1; 7, 8 \\ 939 & 16.4 & 2.56 & 3.500 & 0.72 & 0.12 & M4.5 & 0.84 & 2.1 & 51.5 & $<$9.0 & 27.28 $\pm$ 0.87 & $-$3.8 & & & 1; 7, 8 \\ 961$^{*, \rm c}$ & 12.3 & 1.71 & 3.612 & 2.47 & 0.45 & K6-7 & 0.18 & 1.9 & & 67.0 $\pm$ 6.0 & 21.25 $\pm$ 2.00 & & 1.43 & & 1; 9, 7, 8 \\ 964$^{c}$ & 14.7 & 3.59 & 3.483 & 1.95 & 0.13 & M5.5 & 0.34 & 0.0 & 57.8 & 79.8 $\pm$ 5.3 & 9.54 $\pm$ 5.34 & $-$4.0 & & & 1; 7, 8 \\ 990 & 14.1 & 2.88 & 3.500 & 2.07 & 0.16 & M4.5 & $-$0.14 & 0.6 & 64.7 & 20.3 $\pm$ 0.7 & 27.67 $\pm$ 0.44 & $-$4.3 & 2.16 & & 1; 9, 7, 8 \\ 1025 & 15.9 & 4.01 & 3.483 & 1.46 & 0.11 & M5.5 & 0.24 & 0.0 & 68.7 & $<$9.0 & 27.18 $\pm$ 1.11 & & 4.52 & 2.13 & 1; 9, 7, 8, 13 \\ 1032$^{c}$ & 16.2 & 3.90 & 3.483 & 1.21 & 0.11 & M5.5 & $-$0.45 & 0.0 & 61.9 & 22.9 $\pm$ 1.4 & 31.19 $\pm$ 1.35 & & & & 1; 7, 8\\ 1034 & 15.0 & 3.11 & 3.494 & 1.44 & 0.14 & M5 & $-$0.15 & 0.4 & 63.8 & 16.9 $\pm$ 0.8 & 19.92 $\pm$ 0.69 & & & & 1; 7, 8 \\ 1036 & 15.8 & 3.74 & 3.471 & 1.36 & 0.09 & M6 & 0.31 & $-$2.4 &253.5 & $<$9.0 & 28.32 $\pm$ 0.83 & & & & 1; 7, 8 \\ \hline \end{tabular} \medskip \par Notes. Spectral type sources: 1~= \cite{hillenbrand97}; 2~= \cite{parenago1954}; 3~= Prosser \& Stauffer, unpublished; 4~= Samuel (1993), unpublished Ph.D. thesis; 5~= \cite{cohenkuhi79}; 6~= \cite{edwardsetal93}.\\ Astrophysical parameter sources: 7~= \cite{hillenbrand97}; 8~= \cite{hillenbrandetal98}; 9~= \cite{herbstetal02}; 10~= \cite{prosseretal1994}; 11~= \cite{stassunetal99}; 12~= \cite{herbstetal00}; 13~= \cite{rebulletal2006}.\\ $^*$ Classified as binary by \cite{rhodeetal01}; $^{**}$ $I_{\rm C}-K$ excess contaminated by the Pa 8548 line (\citealt{hillenbrandetal98}).\\ This work: $^{a}$ classified as binary; $^{b}$ barycenter velocity of the binary system assuming equal mass components; $^{c}$ only one measure; $^{d}$ bad CCF; $^{e}$ uncertain CCF; $^{f}$ uncertain $v\sin i$.\\ \end{table}