THE HALL EFFECT As Presented by Kishore Padmaraju

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Presentation transcript:

THE HALL EFFECT As Presented by Kishore Padmaraju In Experimental Conjunction with Greg Smith Alex Pawlicki Note: This presentation was created in powerpoint 2008, so it was created as .pptx. It is best when viewed in powerpoint 2007/2008. Otherwise, a lot of the formatting may screw up

OUTLINE What Is The Hall Effect? Previous Setup New Setup Results How does it affect you? Scientific Principles Applications Previous Setup Shortcomings New Setup How it works Possible Improvements Results Conclusion

HALL EFFECT: THE DISCOVERY Discovered by Edwin Hall in 1879. Quantum Hall Effect discovered in 1975

THE HALL EFFECT Lorentz Force: F = q[E + (v x B)] Hall voltage is produced by charge accumulation on sidewalls Charge accumulation balances Lorentz Force Charge accumulation increases resistance

THE HALL EFFECT: SEMICONDUCTORS Why Semiconductors? Ideal number of charge carriers Charge carriers increase with temperature What we can learn Sign of charge carrier Charge carrier density Charge carrier mobility Energy gap

HALL VOLTAGE For simple conductors Where n = carrier density, d = conductor length RH is known as the Hall coefficient VH α B  Useful for measuring B-Fields Gaussmeter Probe uses a hall sensor

HALL COEFFICIENT Semiconductors have two charge carriers However, for large magnetic fields Enables us to determine the carrier density

EXPERIMENTAL SETUP Liquid N2 & Heaters are used for temperature control

NEW EXPERIMENTAL SETUP Motivation Old automated system inadequate Previous groups frustrated with results Goal Create new DAQ+LabVIEW system More reliable measurements Easy user interface Easy data collection Measure Hall Voltage Current through Semiconductor Temperature Magnetic Field

MEASUREMENT OF HALL VOLTAGE Our hall generator is a fully integrated device Easy measurement of Hall Voltage Indirect but easy measurement of current Semiconductor

TEMPERATURE MEASUREMENT Constantan-Copper Thermocouple Seebeck effect converts temperature gradient to voltage Non-Linear Original thermocouple didn’t work! Where is it? It is this junction between metals!

MAGNETIC FIELD MEASUREMENT V Vmeasure R 4R Magnet Burned Resistor Disaster!

DAQ, LABVIEW INTERFACING LabVIEW frontend DAQ LabVIEW backend

NEW EXPERIMENTAL SETUP Success Integrated DAQ w/ Labview Automated measurements of temperature, hall voltage, semiconductor current Setup Shortcomings Not able to measure magnetic field Accuracy of hall voltage and temperature measurements Heaters are too small Unshielded magnetic field

RESULTS (-) slope  (-) charge carriers n = 1.38E12 cm-3 nSi = 1.5E10 cm-3

RESULTS Increase Temperature  Increased Resistance VH α T-3/2 These results are displeasing

RESULTS Prior results when experiment was conducted manually Note: sign was flipped on purpose

CONCLUSIONS What we learned about Who we learned from The Hall Effect Labview/DAQ integration Common problems in experimental setup Safety (Liquid N2) Maintaining team motivation Who we learned from Steve Bloch Professor Howell