1. Akihama, K., Takatori, Y., Inagaki, K., Sasaki, S. and Dean, A. (2001). Mechanism of the smokeless rich diesel combustion by reducing temperature. SAE Paper No. 2001-01-0655.
2. Choi, D., Jung, H., Chi, Y. and Joo, S. (2013). Diesel/Gasoline dual fuel powered combustion system based on diesel compression ignition triggered ignition control. SAE Paper No. 2013-01-1718.
3. Curran, S., Hanson, R., Wagner, R. and Reitz, R. (2013). Efficiency and emissions mapping of RCCI in a lightduty diesel engine. SAE Paper No. 2013-01-0289.
4. Curran, S., Prikhodko, V., Cho, K., Sluder, C. S., Parks, J., Wagner, R., Kokjohn, S. and Reitz, R. D. (2010). Incylinder fuel blending of gasoline/diesel for improved efficiency and lowest possible emissions on a multicylinder light-duty diesel engine. SAE Paper No. 2010-01-2206.
5. Dempsey, A. B., Walker, N. R. and Reitz, R. D. (2013). Effect of piston bowl geometry on dual fuel reactivity controlled compression ignition (RCCI) in a light-duty engine operated with gasoline/diesel and methanol/diesel. SAE Paper No. 2013-01-0264.