Global energy sector emission reductions and bioenergy use: overview of the bioenergy demand phase of the EMF-33 model comparison N Bauer, SK Rose, S Fujimori, DP Van Vuuren, J Weyant, M Wise, Y Cui, ... Climatic Change 163, 1553-1568, 2020 | 196 | 2020 |
Contributions of individual countries’ emissions to climate change and their uncertainty N Höhne, H Blum, J Fuglestvedt, RB Skeie, A Kurosawa, G Hu, J Lowe, ... Climatic change 106, 359-391, 2011 | 131 | 2011 |
Land-based mitigation in climate stabilization SK Rose, H Ahammad, B Eickhout, B Fisher, A Kurosawa, S Rao, K Riahi, ... Energy Economics 34 (1), 365-380, 2012 | 128 | 2012 |
Japan's long-term climate mitigation policy: multi-model assessment and sectoral challenges M Sugiyama, S Fujimori, K Wada, S Endo, Y Fujii, R Komiyama, E Kato, ... Energy 167, 1120-1131, 2019 | 91 | 2019 |
Analysis of carbon emission stabilization targets and adaptation by integrated assessment model A Kurosawa, H Yagita, W Thou, K Tokimatsu, Y Yanagisawa The Energy Journal 20 (1_suppl), 157-175, 1999 | 84 | 1999 |
The cost of stratospheric climate engineering revisited R Moriyama, M Sugiyama, A Kurosawa, K Masuda, K Tsuzuki, Y Ishimoto Mitigation and Adaptation Strategies for Global Change 22, 1207-1228, 2017 | 79 | 2017 |
Internalization of the external costs of global environmental damage in an integrated assessment model T Kosugi, K Tokimatsu, A Kurosawa, N Itsubo, H Yagita, M Sakagami Energy Policy 37 (7), 2664-2678, 2009 | 76 | 2009 |
Putting costs of direct air capture in context Y Ishimoto, M Sugiyama, E Kato, R Moriyama, K Tsuzuki, A Kurosawa FCEA Working Paper Series: 002, June, 2017 | 66 | 2017 |
Multigas Mitigation: An Economic Analysis Using GRAPE Model A KUROSAWA Energy Journal, 2006 | 62 | 2006 |
Carbon concentration target and technological choice A Kurosawa Energy Economics 26 (4), 675-684, 2004 | 56 | 2004 |
Tracking uncertainties in the causal chain from human activities to climate MJ Prather, JE Penner, JS Fuglestvedt, A Kurosawa, JA Lowe, N Höhne, ... Geophysical Research Letters 36 (5), 2009 | 50 | 2009 |
Significance of CO2-free hydrogen globally and for Japan using a long-term global energy system analysis Y Ishimoto, A Kurosawa, M Sasakura, K Sakata International Journal of Hydrogen Energy 42 (19), 13357-13367, 2017 | 46 | 2017 |
Transdisciplinary co-design of scientific research agendas: 40 research questions for socially relevant climate engineering research M Sugiyama, S Asayama, T Kosugi, A Ishii, S Emori, J Adachi, K Akimoto, ... Sustainability Science 12, 31-44, 2017 | 45 | 2017 |
Evaluation of Japanese energy system toward 2050 with TIMES-Japan–deep decarbonization pathways E Kato, A Kurosawa Energy Procedia 158, 4141-4146, 2019 | 43 | 2019 |
Nuclear energy response in the EMF27 study SH Kim, K Wada, A Kurosawa, M Roberts Climatic Change 123, 443-460, 2014 | 37 | 2014 |
Next steps in geoengineering scenario research: limited deployment scenarios and beyond M Sugiyama, Y Arino, T Kosugi, A Kurosawa, S Watanabe Climate Policy 18 (6), 681-689, 2018 | 36 | 2018 |
Role of negative emissions technologies (NETs) and innovative technologies in transition of Japan’s energy systems toward net-zero CO2 emissions E Kato, A Kurosawa Sustainability Science 16 (2), 463-475, 2021 | 35 | 2021 |
Impact of hydrogen fuel for CO2 emission reduction in power generation sector in Japan NA Pambudi, K Itaoka, A Kurosawa, N Yamakawa Energy Procedia 105, 3075-3082, 2017 | 29 | 2017 |
Land in climate stabilization modeling: Initial observations S Rose, H Ahammad, B Eickhout, B Fisher, A Kurosawa, S Rao, K Riahi, ... Energy Modeling Forum Report, Stanford University, 2007 | 29 | 2007 |
Application of lattice Boltzmann model to multiphase flows with phase transition K Kono, T Ishizuka, H Tsuda, A Kurosawa Computer physics communications 129 (1-3), 110-120, 2000 | 28 | 2000 |