Quantum Materials Laboratory - Advanced Materials and Process Engineering Laboratory (AMPEL)

The University of British Columbia, Vancouver, British Columbia
What the facility does

Fundamental science of scientifically and technologically important quantum materials

Area(s) of Expertise

Quantum materials manifest a wide range of scientifically fascinating and technologically important phenomena, including high-temperature superconductivity, colossal magnetoresistance, myriad forms of magnetism and ferroelectricity and novel admixtures of these states. They embody the central unresolved questions challenging the field of condensed matter physics and are driving technological advances that hold enormous potential for consumer electronics, telecommunications, next-generation computing, renewable energy and medicine. Our broad objective at UBC is to advance the science and technology arising from a fundamental understanding of the many astonishing properties of quantum materials by employing unique and highly precise probes, which we have developed.

Research Services

Materials characterization via angular resolved photoemission and soft X-ray scattering

Sectors of Application
  • Information and communication technologies and media

Specialized Lab

Equipment

Function

Quantum Materials and Devices Foundry

Molecular-beam epitaxy chamber, spin-resolved photoemission spectrometer

Growth of complex transition metal-oxide thin films and heterostructures that are both scientifically and technologically important

Quantum Materials Spectroscopy Centre at Canadian Light Source

Two dedicated photoemission spectrometers, one of which has spin-detection capabilities

Characterization of the magnetic and electronic properties of complex oxide materials

Resonant Elastic and Inelastic Soft X-ray Scattering at Canadian Light Source

Dedicated soft X-ray beamline facility at the Canadian Light Source

A wide range of advanced materials can be investigated by various photon-in and photon-out techniques under magnetic fields and at different temperatures

Title

URL

Canadian Light Source

http://www.lightsource.ca

Quantum Materials Laboratory

http://www.phas.ubc.ca/~quantmat/