One-dimensional hole gas in germanium silicon nanowire hetero-structures - PowerPoint PPT Presentation

1 / 17
About This Presentation
Title:

One-dimensional hole gas in germanium silicon nanowire hetero-structures

Description:

One-dimensional hole gas in germanium silicon nanowire hetero-structures Linyou Cao Department of Materials Science and Engineering Drexel University – PowerPoint PPT presentation

Number of Views:93
Avg rating:3.0/5.0
Slides: 18
Provided by: liny153
Category:

less

Transcript and Presenter's Notes

Title: One-dimensional hole gas in germanium silicon nanowire hetero-structures


1
One-dimensional hole gas in germanium silicon
nanowire hetero-structures
  • Linyou Cao
  • Department of Materials Science and Engineering
  • Drexel University
  • 12/09/2005

2
Motivation-Why?
  • Quantum Confinement not reported in NW
  • Ballistic Transport
  • Conductance Quantification
  • Controlled synthesis of NW offering substantial
    potential to engineer in 1-D electronic system
  • Band-gap engineering in hetero-system widely used
    in semiconductor technique

3
Si/Ge NW
How Si/Ge
intrinsic-Ge (i-Ge) core Chemical deposition
Vapor 5, 10, 15 nm Au cluster 30 sccm 10 GeH4
in H2 200 sccm H2 Nucleation at 315C 300Torr
for I min Growth at 280C 280Torr for 15 min
i-Si shell SiH4 (5 sccm) at 450C5 Torr for
5 min
Why Si/Ge
Lattice match, Si, 5.431 Å Ge, 5.658
Å Bandgap offset Valence band(VB) offset 0.5eV
4
Chemical Vapor Deposition
5
High-resolution TEM image
Structure Features
  • Epitaxial growth Si lattice match with Ge,
    eliminating scattering from surface deffects
  • Intrinsic silicon and gemanium eliminating
    scattering from ionized dopant
  • Thin Si shell facilitating electric contact to
    Ge core and decreasing dislocation
  • Circular geometry forming a channel because of
    confinement potential between Si and Ge.

6
Fabrication of Devices
  • Top Gated
  • Back Gated

550nm Cr/Au
6nm Al2O3
2-5 nm Si /10nm Ge
50nm Ni
50nm Ni
50 nm SiO2
50 nm SiO2
n-Si Rlt0.005O.cm-1
n-Si Rlt0.005O.cm-1
  • Annealing 300oC for 15 min in H2
  • Electric Measurement enviroment pressurelt10-4
    Torr

7
1-D Hole Gas
10-nm- Ge(core)/Si(shell)
Separate 20-nm Ge or Si
  • Current increase as Vg changes from -10V to 10V
    P-type
  • Core/shell structure has much larger current
    Hole accumulation

8
Contact
Schottky contact Unannealed
Transparent contact Annealed
Metal
9
Coulomb Blockade-Unneeded
T1.5K, Vsd0.5mV L112nm
Vg-9.38 V
Unannealed Ge/Si wire, tunnel barrier exists
between contact and silicon shell, which acts as
Coulomb Island
10
Coulomb blockade-Conception
11
Ballistic Transport-Conception
Electron Reservoir
Electron Reservoir
1-D conductor
  • Finite conductance, which is independent to wire
    length
  • No electron-phonon scattering due to ultra-high
    velocity of electron

12
Ballistic Transport
L350nm,T4.7K
L170nm,T300,50,10, 4.7K
  • Single-mode ballistic transport observed in Ge/Si
    at back-gate structure
  • Ballistic transport at room temperature ascribed
    to reduced acoustic phonon scattering, further
    theoretical studies needed, especially
    confinement effect on phonon modes
  • 0.7 structure. spontaneous spin polarization due
    to the formation of a spin gap or a localized
    spin
  • Variation at conductance plateau suggestive of
    FabryPerot interferences

13
Top gate
  • Increases the gate coupling, to probe transport
    through more than one subband.
  • Subband observed in G-Vsd (B)
  • Subband spacing obtained from transcondutance as
    functions of Vg and Vsd
  • Experiemental value consistent with theoretical
    calculation based on an effective mass model with
    a cylindrical confinement potential

100k
50k
10k
5k
14
Conclusion
  • Create a 1D hole gas system in Ge/Si core/shell
    NW heterostructures.
  • Ballistic transport through individual 1D
    subbands due to confinement of carriers in the
    radial direction
  • Little temperature dependence, suggesting a room
    temperature carrier mean free path on the order
    of several hundred nanometers

15
Questions
  • Physical model for Ge/Si,
  • the effect of depletion thickness of Ge/Si??
  • Effect of radial size of Ge/Si
  • Effect of spin polarization??
  • Theoretical Explanation for Ballistic Transport
    in Si/Ge??

16
What we can do??
  • 1-D Electron Gas, inverse Ge/Si??
  • Controlled 1-D gas via external field, like
    Quantum Hall Effect
  • Compound Semiconductor Hetero-Junction??
  • Multi-layer Junction to make coupled
    hole-electron,hole-hole,electron-electron gas??
  • Bipolar transistor, like Optic-electronic

17
Thanks
Write a Comment
User Comments (0)
About PowerShow.com