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Single Electron Transistor

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A key point is that charge passes through the island in quantized units. For an electron to hop onto the island, its energy must equal the coulomb energy ... – PowerPoint PPT presentation

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Title: Single Electron Transistor


1
Single Electron Transistor
  • M. Eric Fombah

2
outline
  • What are Transistors
  • What is a SET
  • Operation of SETs
  • Application of SETs
  • How do SETs differ from Conventional

3
What is a Transistor
  • A transistor is a solid state semiconductor
    device which can be used for numerous purposes
    including signal modulation, amplification,
    voltage stabilization, and many others.
  • Transistors act like a variable valve which,
    based on its input current (BJT) or input voltage
    (FET), allow a precise amount of current to flow
    through it from the circuits voltage supply.

4
What is a SET
  • The single electron transistor is a new type of
    switching device that uses controlled electron
    tunneling to amplify current.
  • Fig 3. Single Electron Transistor

5
Operation
  • The tunnel junction consists of two pieces of
    metal separated by a very thin (1nm) insulator.
  • The only way for electrons in one of the metal
    electrodes to travel to the other electrode is to
    tunnel through the insulator.
  • Since tunneling is a discrete process, the
    electric charge that flows through the tunnel
    junction flows in multiples of the charge of
    electrons e.

6
How is the SET formed
  • Fig 4. A tunnel Junction and its schematic diagram

7
Dynamics
  • The SET is made by placing 2 tunnel junctions in
    series
  • The 2 tunnel junction create what is known as a
    Coulomb Island that electrons can only enter by
    tunneling through one of the insulators.
  • This device has 3 terminals like the FETs.
  • The cap may seem like a third tunnel junction,
    but is much thicker than the others so that no
    electrons could tunnel through it.
  • The cap simply serves as a way of setting the
    electric charge on the coulomb island.

8
Procedure
  • A key point is that charge passes through the
    island in quantized units. For an electron to hop
    onto the island, its energy must equal the
    coulomb energy e2/2Cg.
  • When both the gate and the bias voltages are
    zero, electrons do not have enough energy to
    enter the island and current does not flow. As
    the bias voltage between the source and drain is
    increased, an electron can pass through the
    island when the energy in the system reaches the
    coulomb energy. This effect is known as the
    coulomb blockade, and the critical voltage needed
    to transfer an electron onto the island equal to
    e/C, is called the coulomb gap energy.

9
For Function
  • Capacitance of the island must be less than
    10-17 Farads and therefore its size must be
    smaller that 10 nm.
  • The wavelength of the electrons is comparable
    with the size of the dot, which means that their
    confinement energy makes a significant
    contribution to the coulomb energy.

10
The Coulomb Island
11
Coulomb Island
  • When a capacitor is charged through a resistor,
    the charge on the capacitor is proportional to
    the applied voltage and shows no sign of
    quantization.
  • When a tunnel junction replaces the resistor, a
    conducting island is formed between the junction
    and the capacitor plate. In this case the average
    charge on the island increases in steps as the
    voltage is increased
  • c) The steps are sharper for more resistive
    barriers and at lower temperatures.

12
Coulomb Blockade
  • The effect in which electron can not pass through
    the island unless the energy in the system is
    equal to the coulomb energy e2/Cg.
  • Coulomb blockade tries to alleviate any leak by
    current during the off state of the SET.

13
Application of SETs
  • Quantum computers
  • -1000x Faster
  • Microwave Detection
  • High Sensitivity Electrometer

14
Conclusion
  • Researchers may someday assemble these
    transistors into molecular versions of silicon
    chips , but there are still formidable hurdles to
    cross.
  • SETs could be used for memory device, but even
    the latest SETs suffer from offset charges,
    which means that the gate voltage needed to
    achieve maximum current varies randomly from
    device to device. Such fluctuations make it
    impossible to build complex circuits.
  • The future does look bright for these devices.
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