Barenghi, Carlo F.
Quantum turbulence - Cambridge, U.K.: Cambridge University Press, [c2024] - 312 p.
1. Introduction
2. Quantum fluids
3. Quantized vortices
4. Experimental methods
5. Theoretical and numerical models
6. Transitions and steady-state turbulence
7. Oscillatory turbulence
8. Turbulence in $^3$He-B
9. Spectra and structure functions in quantum turbulence
10. Quantum turbulence via tracer particles
11. Decay of quantum turbulence
12. Regimes of quantum turbulence
13. Outlook
Turbulence plays a crucial role in contexts ranging from galaxy formation to heavy atomic nuclei, from jet engines to arterial blood flow, challenging engineers, physicists, and mathematicians. Recently, turbulence of quantum fluids displaying superfluidity has emerged as an exciting area of interdisciplinary research that spans fluid dynamics, low-temperature physics, and Bose-Einstein condensation. The first book on quantum turbulence, this work describes state-of-the-art results and techniques, stressing analogies and differences with classical turbulence. The authors focus in particular on low temperature phases of liquid helium, drawing on evidence from recent experiments, theory, and numerical simulations. Written by leading figures in the field, this is a go-to reference for students and researchers at all levels. ---summary provided by publisher
9781009345668
QC174 .12
Quantum turbulence - Cambridge, U.K.: Cambridge University Press, [c2024] - 312 p.
1. Introduction
2. Quantum fluids
3. Quantized vortices
4. Experimental methods
5. Theoretical and numerical models
6. Transitions and steady-state turbulence
7. Oscillatory turbulence
8. Turbulence in $^3$He-B
9. Spectra and structure functions in quantum turbulence
10. Quantum turbulence via tracer particles
11. Decay of quantum turbulence
12. Regimes of quantum turbulence
13. Outlook
Turbulence plays a crucial role in contexts ranging from galaxy formation to heavy atomic nuclei, from jet engines to arterial blood flow, challenging engineers, physicists, and mathematicians. Recently, turbulence of quantum fluids displaying superfluidity has emerged as an exciting area of interdisciplinary research that spans fluid dynamics, low-temperature physics, and Bose-Einstein condensation. The first book on quantum turbulence, this work describes state-of-the-art results and techniques, stressing analogies and differences with classical turbulence. The authors focus in particular on low temperature phases of liquid helium, drawing on evidence from recent experiments, theory, and numerical simulations. Written by leading figures in the field, this is a go-to reference for students and researchers at all levels. ---summary provided by publisher
9781009345668
QC174 .12