GibbsF.A., and GibbsE.L., Atlas of Electroencephalography, Vol. I, Methodology and controls, Addison-Wesley, Cambridge, Mass., p. 94, 1950.
2.
RothM. and GreenJ., The lambda wave as a normal physiological phenomenon in the human EEG, Nature (Lond.), pp. 864–866, 1953.
3.
ChatrianG.E.BickfordR.G.PetersenM.C.DodgeH.W.LazarteJ.A., and HolmanC.B., Lambda waves with depth electrodes in Humans. In: RameyE.R. and O'dohertyD.S. (Ed.), Electrical Studies on the Unanesthetised Brain, P.B. HOEBER, New York, pp. 291–310, 1960.
4.
Perez-BorjaC.ChatrianG.E.TyceF.A., and RiversM.H., Electrographic patterns of the occipital lobe in man: a topographic study based on use of implanted electrodes, Electroenceph. Clin. Neurophysiol., 15:171–182, 1962.
5.
BickfordR.G., and KlassD.W., Eye movement and the electroencephalogram, In: BenderM.B. (Ed.), The Oculomotor System, P.B. HOEDER, New York, pp. 293–302, 1964.
6.
KuglerJ., Der Schlaf. Neurophysiologische aspekte. Probleme der elektroenzephalographischen schlafdeskriotion, Verlog Johann Ambrosius Barth, Munchen, pp. 31–39, 1969.
7.
PriorP.F., and DeaconP.A., Spontaneous sleep in healthy subjects in long-term serial electroencephalographic recordings, Electroenceph. Clin. Neurophysiol., 27:422–424, 1969.
8.
KuglerJ., and LaubM., Lambda waves during sleep, Electroenceph. Clin. Neurophysiol., 30:168, p. 1971.
9.
ArfelG.CasanovaC., et CoulmanceM., Aspects dynamiques de l'électroencéphalogramme humain. Premiers résultats d'une étude radio-télémétrique, Electroenceph. Clin. Neurophysiol., 27:225–237, 1969.
10.
KuglerJ., and LaubM., Lambdoid-Wellen (Rho-Wellen) im Schlaf. In press.
11.
SchwartzB.A., et FischgoldH., Introductipná l'étude polygraphique du sommeil de nuit (Mouvements oculaires et cycles du sommeil), Vie méd., 41, S 1:39–46, 1960.
12.
SchwartzB.A., EEG et mouvements oculaires dans le sommeil de nuit, Electroenceph. Clin. Neurophysiol., 14:126–128, 1962.
13.
PassouantP.CadilhacJ.DelangeM.CallamandM., et El KassabguiM., Age et sommeil de nuit. Variations electrocliniques du sommeil de la naissance a l'extreme vieillsse. In: Le Sommeil de Nuit Normal et Pathologique. Etudes Électroenecéphalographiques, Masson et Cie, Paris, pp. 87–115, 1965.
14.
ThomasJ. et BenoitC., Individualisation d' un sommeil à ondes lentes et activité phasique, Brain Res., 5:221–235, 1967.
15.
GastautY., Un signe électroencéphalographique peu connu: les pointes occipitales survenant pendant l'ouverture des yeux, Rev. Neurol., 84: 640–643, 1951.
16.
CobbW.A., and PampiglioneG., Occipital sharp waves responsive to visual stimuli, Electroenceph. Clin. Neurophysiol., 4:110, 1952.
17.
EvansC.C., Spontaneous excitation of the visual cortex and association areas — lambda waves, Electroenceph. Clin. Neurophysiol, 5:69 p. 1953.
18.
CohenB., and FeldmanM., Potential changes associated with rapid eye movement in the calcarine cortex, Exp. Neurol., 31:100–113, 1971.
19.
BrooksD.C., and GershonM.D., Eye movement potentials in the oculomotor and visual systems of the cat: a comparison of reserpine induced waves with those present during wakefulness and rapid eye movement sleep, Brain Research, 27: 223–239, 1971.
20.
JeannerodM., and SakaiK., Occipital and geniculate potentials related to eye movements in the unanaesthetized cat, Brain Res., 19:361–377, 1970.
