Hall Effect System - Lake Shore Cryotronics, Inc.

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Hall Effect Measurement System

7600 Electromagnet Series

Features

Standard sample resistance ranges from 10 mW to 10 MW
Fields to 2 tesla
Temperatures from 15K to 800K
Measure up to 4 samples consecutively without a hardware change
Quantitative Mobility Spectrum Analysis (QMSA) software resolves individual carrier mobilities and densities in multi-carrier devices
Anomalous Hall Effect measurements for spintronics including dilute magnetic semiconductors and ferromagnetic metallic alloys
AC current option measures resistance down to 10 µW and increases resolution up to 10 ppm from 0.1 W to 10 kW

7700A Electromagnet Series

Features

Standard sample resistance ranges from 0.04 mW to 200 GW
Fields to >2 tesla
Temperatures from 15K to 800K
Measure up to 6” wafers
Quantitative Mobility Spectrum Analysis (QMSA) software resolves individual carrier mobilities and densities in multi-carrier devices
Anomalous Hall Effect measurements for spintronics including dilute magnetic semiconductors and ferromagnetic metallic alloys
AC current option measures resistance down to 10 µW and increases resolution up to
10 ppm from 0.1 W to 10 kW

9700A Superconducting Magnet

Features

Standard sample resistance ranges from 0.04 mW to 200 GW
Fields to 9 tesla
Temperatures from 2K to 400K
Quantitative Mobility Spectrum Analysis (QMSA) software resolves individual carrier mobilities and densities in multi-carrier devices
Anomalous Hall Effect measurements for spintronics including dilute magnetic semiconductors and ferromagnetic metallic alloys
AC current option measures resistance down to 10 µW and increases resolution up to
10 ppm from 0.1 W to 10 kW

Description

Lake Shore’s new series of Hall Effect Measurement (HMS) systems combine a wide resistance range, high voltage capability, high magnetic field, and broad temperature range to provide the most capable electronic transport measurement systems available today. The new series of HMS systems feature hardware with electromagnet and superconducting magnet based platforms that can measure samples with resistances ranging from 10 µW to 200 GW, provide fields to 9 tesla, temperatures from 2K to 800K, accommodate samples up to 6” in diameter, or measure up to 4 consecutive samples without a hardware change. New software features include Windows Explorer navigation interface, experiment profiles with multiple measurement steps and samples, complete details of every voltage measurement, predefined measurement sequences, offline data viewing, contact formation, and depletion layer corrections.

The HMS measurement capabilities include Hall coefficient, Hall voltage, resistance, resistivity, magnetoresistance, I-V curves, carrier concentration and mobility. The HMS measures most compound semiconductor materials including pHEMTS, SiGe, SiC, InAs, InGaAs, InP, AlGaAs, HgCdTe, and ferrites; low resistance materials including metals, transparent oxides, dilute magnetic semiconductors, and TMR materials; and high resistance materials including semi-insulating GaAs and GaN, CdTe, and photodetectors.

Quantitative Mobility Spectrum Analysis (QMSA) software technique analyzes variable magnetic field Hall data to resolve individual carrier mobilities and densities in multi-carrier devices. The QMSA software’s reliability and sensitivity make it the ideal technique for routine characterization of various multi-carrier materials and high mobility heterostructure devices. QMSA also has several advantages over previous conduction analysis techniques in that QMSA is fully automated, it does not require advance sample information, and it simultaneously provides individual carrier density and mobility (not an average over all the carriers).

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