Smartt, SJ, Chen, T-W, Jerkstrand, A, Coughlin, M, Kankare, E, Sim, SA, Fraser, M, Inserra, C, Maguire, K, Chambers, KC, Huber, ME, Kruhler, T, Leloudas, G, Magee, M, Shingles, LJ, Smith, KW, Young, DR, Tonry, J, Kotak, R, Gal-Yam, A, Lyman, JD, Homan, DS, Agliozzo, C, Angus, CR, Della Valle, M, Denneau, L, Dennefeld, M, Guelbenzu, AN, Gutierrez, CP, Hamanowicz, A, Hanlon, L, Harmanen, J
, Heintz, KE, Heinze, A, Hernandez, M-S, Hodgkin, ST, Hook, IM, Izzo, L, James, PA, Jonker, PG, Kerzendorf, WE, Klose, S, Kostrzewa-Rutkowska, Z, Kowalski, M, Kromer, M, Kuncarayakti, H, Lawrence, A, Lowe, TB, Magnier, EA, Manulis, I, Martin-Carrillo, A, Mattila, S, McBrien, O, Nordin, J, O'Neill, D, Onori, F, Palmerio, JT, Pastorello, A, Patat, F, Pignata, G, Podsiadlowski, P, Pumo, ML, Prentice, SJ, Rau, A, Razza, A, Rest, A, Reynolds, T, Roy, R, Ruiter, AJ, Rybicki, KA, Salmon, L, Schady, P, Schultz, ASB, Schweyer, T, Seitenzahl, IR, Smith, M, Sollerman, J, Stalder, B, Stubbs, CW, Szegedi, H, Taddia, F, Weiland, H, Willman, M, Wright, DE, Wyrzykowski, L & Yaron, O 2017, '
A kilonova as the electromagnetic counterpart to a gravitational-wave source',
Nature, vol. 551, no. 7678, pp. 75-79.
https://doi.org/10.1038/nature24303