1. Rahnema, F., Zhang, D., Connolly, K., “The COMET method for reactor physics calculations,” PBNC2014-099, Presented at the Pacific Basin Nuclear Conference, Vancouver, British Columbia, Canada, August 24–28 2014.

2. Ulmer, R., Rahnema, F., Connolly, K.J., “A neutronic benchmark specification and COMET Solution for the advanced burner test reactor,” Ann. Nucl. Energy, accepted, July (2015).

3. Connolly, K.J., Rahnema, F., “Heterogeneous coarse mesh radiation transport method for neutronic analysis of prismatic reactors,” Ann. Nucl. Energy, 56, 87–101 (2013).

4. Remley, K., Rahnema, F., “Fuel pin problem solution via an accelerated COMET method,” Transactions of the American Nuclear Society, Presented at the American Nuclear Society Winter Meeting, Anaheim, CA, November 9–13 2014.

5. Remley, K., Rahnema, F., “An adaptive COMET solution to a configuration of the C5G7 benchmark problem,” ANS MC2015 - Joint International Conference on Mathematics and Computation (M&C), Supercomputing in Nuclear Applications (SNA) and the Monte Carlo (MC) Method, Presented at ANS MC2015, Nashville, Tennessee, April 19–23 2015.