D. B. Melrose scite author profile

D. B. Melrose

5Publications

1,406Citation Statements Received

42Citation Statements Given

How they've been cited

1,512

1,371

How they cite others

Affiliations

University of Sydney, Australian National University, Commonwealth Scientific and Industrial Research Organisation

Publications

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Instabilities in Space and Laboratory Plasmas

Melrose¹

1986

551

428

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This book is an introductory account of instabilities in plasma. It concentrates on laboratory plasmas, such as those encountered in fusion research, and the space plasmas studied in physics of the magnetosphere and solar atmosphere. This account bridges the gap between a graduate textbook on plasma physics and specialist monographs. An important feature is the stress placed on the similarities between astrophysical and laboratory plasmas, which are traditionally regarded as quite separate. The natural way in which the author unifies the treatment gives a wider perspective to the subject. Professor Melrose is an expert in plasma astrophysics, and has already written a two-volume book on that topic.

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Electron-cyclotron masers as the source of certain solar and stellar radio bursts

Melrose¹,

Dulk²

1982

ApJ

467

324

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Reduction of feynman diagrams

1965

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Electromagnetic Processes in Dispersive Media

1991

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This is an advanced text on electromagnetic theory, presenting a systematic discussion of electromagnetic waves and radiation processes in a wide variety of media. The treatment, taken from the field of plasma physics, is based on the dielectric tensor, and this permits the discussion of media outside the scope of the usual approach adopted in most textbooks on electromagnetism. The approach taken also has notable advantages when applied to the conventional emission processes of electromagnetic theory. The authors have thus unified the approaches used in plasma physics and astrophysics on the one hand, and in optics on the other. The book has been written clearly and pedagogically, and will be therefore of value to senior undergraduates, graduate students, lecturers and researchers. Students will find the exercises provided at the end of each chapter particularly useful.

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Large‐Amplitude, Pair‐creating Oscillations in Pulsar and Black Hole Magnetospheres

Levinson

Melrose

Judge

et al. 2005

ApJ

103

136

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A time-dependent model for pair creation in a pulsar magnetosphere is developed in which the parallel electric field oscillates with large amplitude. Electrons and positrons are accelerated periodically, and the amplitude of the oscillations is assumed to be large enough to cause creation of upgoing and downgoing pairs at different phases of the oscillation. With a charge-starved initial condition, we find that the oscillations result in bursts of pair creation in which the pair density rises exponentially with time. The pair density saturates at N AE ' E 2 0 /(8 m e c 2 À thr ), where E 0 is the parallel electric field in the charge-starved initial state and À thr is the Lorentz factor for effective pair creation. The frequency of oscillations following the pair creation burst is given roughly by ! osc ¼ eE 0 /(8m e cÀ thr ). A positive feedback keeps the system stable, such that the average pair creation rate balances the loss rate due to pairs escaping the magnetosphere.

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D. B. Melrose

Instabilities in Space and Laboratory Plasmas

Electron-cyclotron masers as the source of certain solar and stellar radio bursts

Reduction of feynman diagrams

Electromagnetic Processes in Dispersive Media

Large‐Amplitude, Pair‐creating Oscillations in Pulsar and Black Hole Magnetospheres

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