Spintronics

1. Spintronics

2. Properties of Electron • Electron has three properties. • Charge • Mass • Spin

3. Conventional Electronics • Conventional Electronic devices rely on the transport of electrical charge carriers. • It utilizes only the charge and the mass of electrons.

4. Why Spintronics? • Moore’s Law: Number of Transistor doubles in every 18 months • Complexity: Complex Chip Design & Power Loss

5. What is Spintronics? • It deals with spin dependent properties of an electron instead of or in addition to its charge dependent properties. • It promises new logic devices which enhances functionality, high speed, reduced size and reduced power consumption.

6. Need for Spintronics • Storage device of size of atom working at a speed of light • Computer memory thousands of times denser and faster than today’s memories. • Cancer cells detection even though they are small in number.

7. Principle • Based on the spin of electrons rather than its charge • Two spin states: spin-up and spin-down • Spin makes an electron a tiny magnet with north and south poles.

8. Working • The information is stored (written) into spins as a particular spin orientation (up or down). • The spins, being attached to mobile electrons, carry information along a wire and the information is read at a terminal. • Spin orientation of conduction electrons survives for relatively long time which makes spintronic devices useful for memory storage and magnetic sensor applications

9. GMR • Magnetism is the integral part of data storage techniques. • Data is stored as tiny areas of magnetized iron or chromium oxide. • Magneto resistance is the property of a material to change the value of its electrical resistance when an external magnetic field is applied to it. • GMR is more sensitive.

10. Spintronic Devices • Some of the Spintronic devices are • MRAM ( Magnetoresistive Random Access Memory) • Spin Transistor • Quantum Computer • Spintronic Scanner

11. MRAM • It is based on integration of MTJ (Magnetic Tunnel Junction). • In this data is not stored as electric charge or current flow, but by Magnetic storage elements. • Advantages of MRAM are that it is non volatile, small in size, lower cost, faster speed and less power consumption

12. Spin Transistor • It is based on magneto resistance, found in multi layers (Co-Cu-Co) forming the base region. • Traditional silicon chips-flow of electrical current is controlled by modifying the positive or negative charge. • Spin transistor-spin is used to control the movement of currents. 

13. Quantum Computer • The basic principle behind quantum computation is that quantum properties can be used to represent data and perform operations on these data. • A quantum computer maintains a sequence of qubits. • Solve problems much faster.

14. Spintronic Scanner • It is an efficient technique to detect cancer cells even when they are less in number. • Exposing to strong magnetic field and passing electrons with polarized spin.

15. Electronics vs. Spintronics • No ‘boot-up’ waiting period required. • No need for specialized Semiconductors. • It can work with common metals like Cu, Al, Ag. • Less power consumption than conventional electronics. • Non-volatility.

16. Conclusion • With lack of dissipation, Spintronics may be the best mechanism for creating ever-smaller devices. • The potential market is enormous, In maybe a 10-year timeframe, Spintronics will be on par with electronics. • That's why there's a huge race going on around the world In exploring Spintronics.

17. References • www.dac.neu.edu • www.physics.umd.edu • www.nano.caltech.edu • mechanisms of spin relaxation in electronic systems (metals and semiconductors) in J. Fabian and S. Das Sarma, J. Vac. Sc. Technol. B 17, 1708 (1999). • www.physicsweb.com

18. Thank You