Mehmet Kerem Turkcan. Sensory Processing and Associative Learning in Connectome-Based Neural Circuits. Ph.D. Thesis, Dept. of Electrical Engineering, Columbia University, October 2022.

A. A. Lazar, M. K. Turkcan, and Y. Zhou. A Programmable Model for Exploring the Functional Logic of the Drosophila Antennal Lobe. bioRxiv, September 2022.

A. A. Lazar, T. Liu, C.-H. Yeh, and Y. Zhou. Odorant Mixture Separation in Drosophila Early Olfactory System. bioRxiv, September 2022.

A. A. Lazar, M. K. Turkcan, and Y. Zhou. A Programmable Model for Exploring the Functional Logic of the Drosophila Mushroom Body. bioRxiv, September 2022.

A. A. Lazar, T. Liu, and Y. Zhou. Divisive Normalization Circuits Faithfully Represent Auditory and Visual Stimuli. bioRxiv, September 2022.

O.T. Shafer, G.J. Gutierrez, K. Li, A. Mildenhall, D. Spira, J. Marty, A.A. Lazar, and M.P. Fernandez. Connectomic Analysis of the Drosophila Lateral Neuron Clock Cells Reveals the Synaptic Basis of Functional Pacemaker Classes. eLife, July 2022.

A. A. Lazar, M. K. Turkcan, and Y. Zhou. A Programmable Ontology Encompassing the Functional Logic of the Drosophila Brain. Frontiers in Neuroinformatics, Neuroinformatics of Large Scale Brain Modelling, June 2022.

M. K. Turkcan, Y. Zhou, and A. A. Lazar. A Circuit Library for Exploring the Functional Logic of Massive Feedback Loops in Drosophila Brain. COSYNE 2022, 2022.