|Energy system transformations for limiting end-of-century warming to below 1.5 C|
J Rogelj, G Luderer, RC Pietzcker, E Kriegler, M Schaeffer, V Krey, ...
Nature Climate Change 5 (6), 519-527, 2015
|The underestimated potential of solar energy to mitigate climate change|
F Creutzig, P Agoston, JC Goldschmidt, G Luderer, G Nemet, ...
Nature Energy 2 (9), 1-9, 2017
|Fossil-fueled development (SSP5): an energy and resource intensive scenario for the 21st century|
E Kriegler, N Bauer, A Popp, F Humpenöder, M Leimbach, J Strefler, ...
Global environmental change 42, 297-315, 2017
|Economic mitigation challenges: how further delay closes the door for achieving climate targets|
G Luderer, RC Pietzcker, C Bertram, E Kriegler, M Meinshausen, ...
Environmental Research Letters 8 (3), 034033, 2013
|Shared socio-economic pathways of the energy sector–quantifying the narratives|
N Bauer, K Calvin, J Emmerling, O Fricko, S Fujimori, J Hilaire, J Eom, ...
Global Environmental Change 42, 316-330, 2017
|The role of renewable energy in climate stabilization: results from the EMF27 scenarios|
G Luderer, V Krey, K Calvin, J Merrick, S Mima, R Pietzcker, J Van Vliet, ...
Climatic change 123 (3), 427-441, 2014
|Residual fossil CO 2 emissions in 1.5–2 C pathways|
G Luderer, Z Vrontisi, C Bertram, OY Edelenbosch, RC Pietzcker, J Rogelj, ...
Nature Climate Change 8 (7), 626-633, 2018
|Using the sun to decarbonize the power sector: The economic potential of photovoltaics and concentrating solar power|
RC Pietzcker, D Stetter, S Manger, G Luderer
Applied Energy 135, 704-720, 2014
|Integrating short term variations of the power system into integrated energy system models: A methodological review|
S Collins, JP Deane, K Poncelet, E Panos, RC Pietzcker, E Delarue, ...
Renewable and Sustainable Energy Reviews 76, 839-856, 2017
|Carbon lock-out: advancing renewable energy policy in Europe|
P Lehmann, F Creutzig, MH Ehlers, N Friedrichsen, C Heuson, L Hirth, ...
Energies 5 (2), 323-354, 2012
|System integration of wind and solar power in integrated assessment models: A cross-model evaluation of new approaches|
RC Pietzcker, F Ueckerdt, S Carrara, HS De Boer, J Després, S Fujimori, ...
Energy Economics 64, 583-599, 2017
|Long-term transport energy demand and climate policy: Alternative visions on transport decarbonization in energy-economy models|
RC Pietzcker, T Longden, W Chen, S Fu, E Kriegler, P Kyle, G Luderer
Energy 64, 95-108, 2014
|Complementing carbon prices with technology policies to keep climate targets within reach|
C Bertram, G Luderer, RC Pietzcker, E Schmid, E Kriegler, O Edenhofer
Nature Climate Change 5 (3), 235-239, 2015
|Application of a high-detail energy system model to derive power sector characteristics at high wind and solar shares|
Y Scholz, HC Gils, RC Pietzcker
Energy Economics 64, 568-582, 2017
|Representing power sector variability and the integration of variable renewables in long-term energy-economy models using residual load duration curves|
F Ueckerdt, R Brecha, G Luderer, P Sullivan, E Schmid, N Bauer, ...
Energy 90, 1799-1814, 2015
|Description of the REMIND model (Version 1.6)|
G Luderer, M Leimbach, N Bauer, E Kriegler, L Baumstark, C Bertram, ...
|Assessment of wind and solar power in global low-carbon energy scenarios: An introduction|
G Luderer, RC Pietzcker, S Carrara, HS de Boer, S Fujimori, N Johnson, ...
Energy Economics 64, 542-551, 2017
|Energy investments under climate policy: a comparison of global models|
D McCollum, YU Nagai, K Riahi, G Marangoni, K CALVIN, R Pietzcker, ...
Climate Change Economics 4 (04), 1340010, 2013
|Asia's role in mitigating climate change: A technology and sector specific analysis with ReMIND-R|
G Luderer, RC Pietzcker, E Kriegler, M Haller, N Bauer
Energy Economics 34, S378-S390, 2012
|Decarbonizing global power supply under region-specific consideration of challenges and options of integrating variable renewables in the REMIND model|
F Ueckerdt, R Pietzcker, Y Scholz, D Stetter, A Giannousakis, G Luderer
Energy Economics 64, 665-684, 2017