Two intermediate phases have been observed upon heating an asymmetric
poly(ethylenepropylene)-poly(ethylethylene) diblock copolymer between
lamellar and hexagonal cylinder phases near the order-disorder transit
ion. Phase transitions between ordered morphologies are indicated by t
he temperature dependence of the dynamic shear moduli, and small angle
neutron scattering experiments are used to identify these structures
as hexagonally modulated lamellae and layered hexagonal packed channel
s. The observed wavevectors associated with the interlayer scattering
for these structures are incommensurate, leading to an aperiodic struc
ture in which the long range translational order of the layers is dest
royed. However, the scattering data show that long range in-plane bond
orientational order is present, suggesting an analogy with hexatic B
phase in liquid crystals. A Fourier imaging method is used to construc
t density images for the two structures. This shows modulated lamellae
for the low temperature phase while channels are evident in the high
temperature phase. A restacking transition occurs on shearing the modu
lated lamellar phase, but the channel phase cannot support large strai
n shear deformations and instead transforms into rods. These phases do
not occur in the mean-field phase diagram for block copolymers, and w
e believe they are stabilized by composition fluctuations that are the
inevitable result of a finite molecular weight. Furthermore, these fl
uctuations are anisotropic, a feature which has not been accounted for
theoretically.