Nurmukhanbetova, A.K.Goldberg, V.Z.Nauruzbayev, D.K.Rogachev, G.V.Golovkov, M.S.Mynbayev, N.A.Artemov, S.Karakhodjaev, A.Kuterbekov, K.Rakhymzhanov, A.Berdibek, Zh.Ivanov, I.Tikhonov, A.Zherebchevsky, V.I.Torilov, S. Yu.Tribble, R.E.2017-12-212017-12-212017-03-01A.K. Nurmukhanbetova, V.Z. Goldberg, D.K. Nauruzbayev, G.V. Rogachev, M.S. Golovkov, N.A. Mynbayev, S. Artemov, A. Karakhodjaev, K. Kuterbekov, A. Rakhymzhanov, Zh. Berdibek, I. Ivanov, A. Tikhonov, V.I. Zherebchevsky, S. Yu. Torilov, R.E. Tribble, Implementation of TTIK method and time of flight for resonance reaction studies at heavy ion accelerator DC-60, In Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, Volume 847, 2017, Pages 125-12901689002https://www.sciencedirect.com/science/article/pii/S0168900216312050http://nur.nu.edu.kz/handle/123456789/3007Abstract To study resonance reactions of heavy ions at low energy we have combined the Thick Target Inverse Kinematics Method (TTIK) with Time of Flight method (TF). We used extended target and TF to resolve the identification problems of various possible nuclear processes inherent to the simplest popular version of TTIK. Investigations of the 15N interaction with hydrogen and helium gas targets by using this new approach are presented.enLow energy resonance reactionsThick target inverse kinematic methodNuclear astrophysicsTime of flight methodArticle© 2016 Elsevier B.V. All rights reserved.