Three-dimensional memory device having a heterostructure quantum well channel

What is claimed is: 1. A monolithic three-dimensional memory device comprising: a stack of alternating layers comprising insulating layers and electrically conductive layers and located over a substrate; a memory opening vertically extending through the stack of alternating layers; a memory film located at a periphery of the memory opening; a semiconductor channel extending through the memory opening and located over the memory film and comprising: a first semiconductor material layer having a first band gap and located over the memory film; and a second semiconductor material layer having a second band gap that is narrower than the first band gap and located over the first semiconductor material layer, wherein a two-dimensional electron gas for electrical current conduction is present at, or in proximity to, an interface between the first semiconductor material layer and the second semiconductor material layer. 2. The monolithic three-dimensional memory device of claim 1 , wherein: a conduction band of the semiconductor channel has a minimum along a radial direction at, or in proximity to, the interface to form a heterostructure quantum well; a heterojunction between two different semiconductor materials is present at the interface between the first semiconductor material layer and the second semiconductor material layer; and the heterojunction has a configuration of a cylindrical sheet having a substantially uniform horizontal cross-sectional shape. 3. The monolithic three-dimensional memory device of claim 1 , wherein: the first semiconductor material layer comprises a first III-V compound semiconductor material; and the second semiconductor material layer comprises a second III-V compound semiconductor material different from the first III-V compound semiconductor material. 4. The monolithic three-dimensional memory device of claim 3 , wherein: the first compound semiconductor material is undoped; and the second compound semiconductor material is undoped. 5. The monolithic three-dimensional memory device of claim 3 , wherein: an outer portion of the first compound semiconductor material is n-doped; an inner portion of the first compound semiconductor material is undoped; and the second compound semiconductor material is undoped. 6. The monolithic three-dimensional memory device of claim 3 , wherein: an outer portion of the first compound semiconductor material is undoped; an inner portion of the first compound semiconductor material is n-type delta doped; and the second compound semiconductor material is undoped. 7. The monolithic three-dimensional memory device of claim 3 , wherein: an outer portion of the first compound semiconductor material is undoped; an intermediate portion of the first compound semiconductor material is n-type delta doped; an inner portion of the first compound semiconductor material is undoped; and the second compound semiconductor material is undoped. 8. The monolithic three-dimensional memory device of claim 3 , wherein: the first III-V compound semiconductor material comprises a material selected from AlGaAs, GaAs, InAlAs, and InGaAlAs; and the second III-V compound semiconductor material comprises a material selected from GaAs, InGaAs, InP, InAs, and InGaAsP. 9. The monolithic three-dimensional memory device of claim 1 , wherein: the memory film comprises charge storage elements comprising a charge trapping material and a tunneling dielectric layer contacting an inner sidewall of the charge storage elements; the tunneling dielectric layer comprises a lateral stack of a plurality of dielectric material layers including at least one high-k dielectric material layer; an outermost tunneling dielectric layer within the lateral stack comprises silicon oxide; an innermost tunneling dielectric layer within the lateral stack comprises aluminum oxide; and the lateral stack comprises at least one intermediate tunneling dielectric layer between the outermost tunneling dielectric layer and the innermost tunneling dielectric layer. 10. The monolithic three-dimensional memory device of claim 9 , wherein each of the at least one intermediate tunneling dielectric layer is selected from a silicon nitride layer, a lanthanum oxide layer, a hafnium oxide layer, a zirconium oxide layer, and a silicon oxynitride layer. 11. The monolithic three-dimensional memory device of claim 9 , wherein the memory film further comprises a blocking dielectric layer contacting a sidewall of the memory opening and an outer sidewall of the charge storage elements. 12. The monolithic three-dimensional memory device of claim 3 , wherein the first and second III-V compound semiconductor materials comprise single crystalline or large grain polycrystalline materials having an average grain size greater than 300 nm along at least one direction. 13. The monolithic three-dimensional memory device of claim 12 , wherein the second III-V compound semiconductor material is epitaxially aligned to the first III-V compound semiconductor material. 14. The monolithic three-dimensional memory device of claim 3 , further comprising an epitaxial pedestal located within the memory opening and underlying the semiconductor channel and comprising a single crystal material that is either the same as or different in composition from a crystalline III-V compound semiconductor material of the semiconductor channel. 15. The monolithic three-dimensional memory device of claim 14 , wherein the single crystal material of the pedestal is different in composition from the crystalline III-V compound semiconductor material of the semiconductor channel. 16. The monolithic three-dimensional memory device of claim 15 , wherein the single crystal material of the pedestal comprises single crystalline silicon. 17. The monolithic three-dimensional memory device of claim 14 , wherein the single crystal material of the pedestal comprises a III-V semiconductor material that is the same in composition as the first or the second semiconductor material layers of the semiconductor channel. 18. The monolithic three-dimensional memory device of claim 3 , further comprising: a drain region located at an upper portion of the semiconductor channel; a source region located in the substrate and laterally spaced from the memory opening, wherein a portion of a semiconductor material layer between the memory opening and the source region comprises a horizontal semiconductor channel portion providing a current conduction path connected to the semiconductor channel; and a source contact via structure contacting the source region and electrically isolated from the electrically conductive layers by an insulating spacer. 19. The monolithic three-dimensional memory device of claim 18 , wherein the drain region comprises a doped III-V compound semiconductor material drain extension region contacting an upper part of the second semiconductor material layer, a doped silicon region and a nickel containing material located between the doped silicon region and the drain extension region. 20. The monolithic three-dimensional memory device of claim 18 , wherein the drain region comprises a doped III-V compound semiconductor material drain extension region contacting an upper part of the second semiconductor material layer, and a metal III-V semiconductor alloy region in contact with the drain extension region, wherein the metal III-V semiconductor alloy contacts a drain contact via structure. 21. The monolithic three-dimensional