M. Ledinegg, Instability of flow during natural and forced circulation, pp.891-898, 1938.

J. A. Boure, A. E. Bergles, and L. S. Tong, Review of two-phase flow instability, Nuclear Engineering and Design, vol.25, pp.165-192, 1973.

G. Geffraye, O. Antoni, D. Kadri, G. Lavialle, B. Rameau et al., CATHARE 2 V2.5_2: A single version for various applications, Nuclear Engineering and Design, vol.241, pp.4456-4463, 2011.

R. H. Whittle and R. Forgan, A correlation for the minima in the pressure drop versus flow-rate curves for sub-cooled water flowing in narrow heated channels, Nuclear engineering and design, vol.6, pp.89-99, 1967.

I. Babelli and M. Ishii, Flow excursion instability in downward flow systems. Part I. Single-phase instability, Nuclear Engineering and Design, vol.206, pp.91-96, 2001.

A. Ghione, B. Noel, P. Vinai, and C. Demazière, Criteria for onset of flow instability in heated vertical narrow rectangular channels at low pressure: an assessment study, International Journal of Heat and Mass Transfer, vol.105, pp.464-478, 2017.
URL : https://hal.archives-ouvertes.fr/cea-01812242

R. K. Shah and A. L. London, Laminar flow forced convection in ducts, Advances in Heat Transfer, vol.20, 1978.

A. Ghione, B. Noel, P. Vinai, and C. Demazière, Assessment of thermal-hydraulic correlations for narrow rectangular channels with high heat flux and coolant velocity, International Journal of Heat and Mass Transfer, vol.99, pp.344-356, 2016.
URL : https://hal.archives-ouvertes.fr/cea-01808079

S. M. Marco and L. S. Han, A note on limiting laminar Nusselt number in ducts with constant temperature gradient by analogy to thin-plate theory, Transactions of the ASME, vol.77, pp.625-630, 1955.

F. W. Dittus and L. M. Boelter, Heat transfer in automobile radiators of the tubular type, vol.2, pp.3-22, 1930.

K. Engelberg-forster and R. Greif, Heat transfer to a boiling liquid: mechanism and correlations, ASME Journal of Heat Transfer, vol.81, pp.43-53, 1959.

S. Fabrega, Etude expérimentale des instabilités hydrodynamiques survenant dans les réacteurs nucléaires à ébullition, 1966.

P. Saha and N. Zuber, Point of Net Vapor Generation and vapor void fraction in subcooled boiling, Proceedings of 5 th International Heat Transfer Conference, vol.4, pp.175-179, 1974.

V. Kalitvianski, Qualification of CATHARE 2 V1.5 Rev. 6 on subcooled boiling experiments (KIT tests), CEA, 2000.

L. Sabotinov, Experimental investigation of void fraction in subcooled boiling for different power distribution laws along the channel, 1974.

M. Courtaud, K. Schleisiek, G. Coulon, and F. Mazzili, Compte rendu d'essais. Pertes de charge et redistribution de débit sur des canaux rectangulaires de 1.8 mm d'entrefer (type R.H.F.), CEA, 1967.

P. Vernier, Détermination expérimentale des courbes en S et des conditions de redistribution de débit, CEA, 1965.

J. Lafay, Détermination expérimentale du flux de redistribution de débit à basse pressions et en régime permanent: influence du diamètre hydraulique, CEA, 1965.

W. R. Gambill and R. D. Bundy, Heat transfer studies of water flow in thin rectangular channels. Part I -Heat Transfer, Burnout and Friction for water in turbulent forced convection, Nuclear Science and Engineering, vol.18, pp.69-79, 1964.

S. Kakaç, R. K. Shah, and W. Aung, Handbook of single-phase convective heat transfer, 1987.