Emeritus Professor John Steeds
B.Sc.(Lond.), Ph.D.(Cantab.), F.Inst.P., F.R.S.
Current positions
Emeritus Professor of Physics
School of Physics
Contact
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Research interests
My past research has been based largely on transmission electron microscopy (TEM) and (convergent beam) electron diffraction.
However, I have recently embarked on a completely new activity concerned with the study of point defects and their complexes in wide-band-gap semiconductors, such as silicon carbide, diamond, and cubic boron carbide.I aim to understand, exploit, and develop the extremely sensitive method of low-temperature (~7K) photoluminescence microscopy for non-destructive evaluation and identification of defects in these materials.
Considerable international and national collaboration is involved. The defects may be grown-in or created by energy-selected irradiation of specimens in a specially adapted 300 kV TEM. The materials are of considerable interest for future applications in high-power, high-temperature, and high-frequency electronics and also for quantum information processing.
Projects and supervisions
Research projects
DEVELOPMENT AND APPLICATION OF MICROSCOPIC PHOTOLIMINESCENE AND RAMA SPECTROSCOPY OF SIC
Principal Investigator
Managing organisational unit
School of PhysicsDates
01/08/2002 to 01/10/2005
RELATIONSHIP BETWEEN DEFECTS, IMPURITIES AND PHYSICAL PROPERTIES OF CVD DIAMOND FILMS
Principal Investigator
Managing organisational unit
School of PhysicsDates
01/02/1999 to 01/02/2002
DEVELOPMENT OF DIAMOND SAW FILTER FOR OPTICAL FIBRE COMMUNICATION SYSTEMS
Principal Investigator
Managing organisational unit
School of PhysicsDates
01/09/1997 to 01/09/1999
Publications
Recent publications
01/12/2018Analysis of an unusual mixed-habit natural diamond by high spatial resolution techniques
Journal of Crystal Growth
Photoluminescence experiments on the 523.7 nm centre in diamond
Diamond and Related Materials
Creation and identification of the two spin states of dicarbon antisite defects in 4H-SiC
Physical Review B: Condensed Matter and Materials Physics
Identification of antisite carbon split-interstitial defects in 4H-SiC
Physical Review B: Condensed Matter and Materials Physics
Identification of intrinsic defects in SiC: Towards an understanding of defect aggregates by combining theoretical and experimental approaches
physica status solidi (b)
