| Pulsed-flame photometer: a novel gas chromatography detector S Cheskis, E Atar, A Amirav Analytical Chemistry 65 (5), 539-555, 1993 | 153 | 1993 |
| Cavity ring-down spectroscopy of OH radicals in low pressure flame S Cheskis, I Derzy, VA Lozovsky, A Kachanov, D Romanini Applied Physics B 66, 377-381, 1998 | 101 | 1998 |
| Quantitative measurements of absolute concentrations of intermediate species in flames S Cheskis Progress in Energy and Combustion Science 25 (3), 233-252, 1999 | 89 | 1999 |
| OH vibrational distribution in the reaction O (1D)+ CH4 SG Cheskis, AA Iogansen, PV Kulakov, IY Razuvaev, OM Sarkisov, ... Chemical physics letters 155 (1), 37-42, 1989 | 72 | 1989 |
| Flash photolysis of ammonia in the presence of oxygen SG Cheskis, OM Sarkisov Chemical Physics Letters 62 (1), 72-76, 1979 | 65 | 1979 |
| Fiber laser intracavity absorption spectroscopy for in situ multicomponent gas analysis in the atmosphere and combustion environments B Löhden, S Kuznetsova, K Sengstock, VM Baev, A Goldman, S Cheskis, ... Applied Physics B 102, 331-344, 2011 | 55 | 2011 |
| Pulsed flame-a novel concept for molecular detection E Atar, S Cheskis, A Amirav Analytical Chemistry 63 (18), 2061-2064, 1991 | 54 | 1991 |
| On the Rate Constant for NH2+HO2 and Third-Body Collision Efficiencies for NH2+H(+M) and NH2+NH2(+M) P Glarborg, H Hashemi, S Cheskis, AW Jasper The Journal of Physical Chemistry A 125 (7), 1505-1516, 2021 | 53 | 2021 |
| Absolute CH concentration in flames measured by cavity ring-down spectroscopy I Derzy, VA Lozovsky, S Cheskis Chemical physics letters 306 (5-6), 319-324, 1999 | 49 | 1999 |
| Laser diagnostics of trace species in low-pressure flat flame S Cheskis, A Goldman Progress in Energy and Combustion Science 35 (4), 365-382, 2009 | 47 | 2009 |
| Nonequilibrium concentrations of the vibrationally excited OH radical in a methane flame measured by cavity ring-down spectroscopy VA Lozovsky, I Derzy, S Cheskis Chemical physics letters 284 (5-6), 407-411, 1998 | 47 | 1998 |
| NH2 radical formation by ammonia pyrolysis in a temperature range of 800–1000 K I Rahinov, N Ditzian, A Goldman, S Cheskis Applied Physics B 77, 541-546, 2003 | 46 | 2003 |
| Absorption spectroscopy diagnostics of amidogen in ammonia-doped methane/air flames I Rahinov, A Goldman, S Cheskis Combustion and flame 145 (1-2), 105-116, 2006 | 45 | 2006 |
| Experimental and modelling study of 1CH2 in premixed very rich methane flames A Fomin, T Zavlev, VA Alekseev, I Rahinov, S Cheskis, AA Konnov Combustion and Flame 171, 198-210, 2016 | 44 | 2016 |
| Determination of rate parameters based on NH2 concentration profiles measured in ammonia-doped methane–air flames V Samu, T Varga, I Rahinov, S Cheskis, T Turányi Fuel 212, 679-683, 2018 | 42 | 2018 |
| Spectroscopic study of elementary reactions involving HCO, NH2 and HNO OM Sarkisov, SG Cheskis, VA Nadtochenko, EA Sviridenkov, ... Arch. Combust 4, 111-120, 1984 | 42 | 1984 |
| Intracavity laser absorption spectroscopy detection of HCO radicals in atmospheric pressure hydrocarbon flames S Cheskis The Journal of chemical physics 102 (4), 1851-1854, 1995 | 41 | 1995 |
| Absolute HCO concentration measurements in methane/air flame using intracavity laser spectroscopy VA Lozovsky, S Cheskis, A Kachanov, F Stoeckel The Journal of chemical physics 106 (20), 8384-8391, 1997 | 40 | 1997 |
| Intracavity laser absorption spectroscopy detection of singlet CH2 radicals in hydrocarbon flames S Cheskis, I Derzy, VA Lozovsky, A Kachanov, F Stoeckel Chemical physics letters 277 (5-6), 423-429, 1997 | 36 | 1997 |
| Study of the HNO+ HNO and HNO+ NO reactions by intracavity laser spectroscopy SG Cheskis, VA Nadtochenko, OM Sarkisov International Journal of Chemical Kinetics 13 (10), 1041-1050, 1981 | 35 | 1981 |
