Your search keyword '"Mikhail Slipchenko"' showing total 22 results

1. Megahertz-Rate Imaging of Hypersonic Boundary-Layer Instabilities in a Mach 10 Shock Tunnel

Author

Naibo Jiang, Paul S. Hsu, Mikhail Slipchenko, Sukesh Roy, Daniel K. Lauriola, Austin M. Webb, Terrence R. Meyer, Mark Gragston, Ron Parker, Phillip Portoni, Conor McDermott, Kevin Seitz, and Timothy P. Wadhams

Subjects

Aerospace Engineering

Abstract

The transition of the boundary-layer state from laminar to turbulent on a 7° sharp cone in Mach 10 flow is measured using several high-speed optical diagnostics capable of time-resolved measurements of the second-mode instability with high spatial resolution. Specifically, megahertz-rate nitric oxide planar laser-induced fluorescence (NO PLIF) imaging is done at 1 MHz to provide a non-path-integrated visualization of second-mode associated structures in the transitioning boundary layer. A recent variation of focused laser differential interferometry (FLDI), namely, linear array FLDI (LA-FLDI), is also applied for multipoint measurements of frequency content in the transitioning boundary layer. From each data set, the frequency of the most unstable second-mode instability is obtained along with the phase velocity of the second-mode waves. Measurements show good agreement relative to each other and also with surface pressure sensors and high-speed schlieren imaging. Furthermore, the 1 MHz NO PLIF imaging demonstrated here shows great potential for visualization of transitional and turbulent boundary layers when path-integrated diagnostics cannot be used.

Published

2023

2. KTP Optical Parametric Oscillator for Extended Duration High Repetition Rate NO Planar Laser Induced Fluorescence

Author

Austin M. Webb, Christopher Crabtree, Venkat Athmanathan, Mikhail Slipchenko, and Terrence R. Meyer

Published

2023

3. Burst-mode planar laser-induced fluorescence of Nitric Oxide in the Sandia Free-Pistion Shock Tunnel

Author

Sean P. Kearney, Kyle P. Lynch, Kyle Daniel, Elijah Jans, Charley Downing, Justin L. Wagner, Austin M. Webb, Christopher Crabtree, and Mikhail Slipchenko

Published

2023

4. Development of kHz-rate CO Laser-Induced Fluorescence in High Speed Flows

Author

Neil Blackwell, Austin M. Webb, Christopher Crabtree, Mikhail Slipchenko, Terrence R. Meyer, and Joseph S. Jewell

Published

2023

5. Electron Momentum-Transfer Collision Frequency Measurements in Small Plasma Objects via Phase Information from Constructive Elastic Microwave Scattering

Author

Adam Patel, Xingxing Wang, Apoorv Ranjan, Mikhail Slipchenko, Sergey O. Macheret, Mikhail N. Shneider, and Alexey Shashurin

Published

2023

6. Joint Temperature and Velocity Statistics in High-speed Flows Using Simultaneous CARS Thermometry and FLEET Velocimetry

Author

Erik Braun, Jonathan Crosmer, David Ritchie, Nathaniel Kiefer, James Braun, Guillermo Paniagua, Mikhail Slipchenko, and Terrence R. Meyer

Published

2023

7. Megahertz-rate Femtosecond Laser Activation and Sensing of Hydroxyl for Velocimetry in a Rotating Detonation Combustor Exhaust

Author

Austin M. Webb, Venkat Athmanathan, Jordan Fisher, Chris Q. Crabtree, Mikhail Slipchenko, and Terrence R. Meyer

Published

2022

8. Burst-Mode Coherent Anti-Stokes Raman Scattering N2Thermometry in the Sandia Free-Piston Shock Tube

Author

Sean P. Kearney, Kyle Daniel, Justin L. Wagner, Kyle P. Lynch, Charley R. Downing, Daniel K. Lauriola, Jason Leicht, and Mikhail Slipchenko

Published

2022

9. Time-resolved Volumetric (4D) Laser Induced Fluorescence Imaging of Primary Spray Breakup

Author

Mateo Gomez, Amanda M. Braun, Terrence R. Meyer, Mikhail Slipchenko, and Sukesh Roy

Published

2022

10. Thomson and Collisional Regimes of In-Phase Coherent Microwave Scattering Off Small Plasma Objects

Author

Adam Patel, Apoorv Ranjan, Xingxing Wang, Mikhail Slipchenko, Mikhail N. Shneider, and Alexey Shashurin

Published

2022

11. Correction: Megahertz-rate Femtosecond Laser Activation and Sensing of Hydroxyl for Velocimetry in a Rotating Detonation Combustor Exhaust

Author

Austin M. Webb, Venkat Athmanathan, Jordan Fisher, Chris Q. Crabtree, Mikhail Slipchenko, and Terrence R. Meyer

Published

2022

12. Mach 18 Flow Velocimetry with 100-kHz KTV and PLEET in AEDC Tunnel 9

Author

Naibo Jiang, Paul Hsu, Stephen W. Grib, Mikhail Slipchenko, Sukesh Roy, David Shekhtman, Nick Parziale, Michael S. Smith, and Addison Spicer

Published

2022

13. MHz rate Flow Diagnostics in CUBRC Mach 10 Shock Tunnel

Author

Naibo Jiang, Paul Hsu, Mikhail Slipchenko, Sukesh Roy, Daniel K. Lauriola, Austin M. Webb, Terrence R. Meyer, Mark Gragston, Ron Parker, Phillip Portoni, Conor McDemortt, and Timothy Wadhams

Published

2022

14. Detonation wave dynamics of straight and expanding annular injectors using MHz rate OH* chemiluminescence, and URANS simulations

Author

Venkat Athmanathan, Austin M. Webb, Chris Q. Crabtree, Robert B. Wang, James Braun, Guillermo Paniagua, Christopher A. Fugger, Sukesh Roy, Mikhail Slipchenko, and Terrence R. Meyer

Published

2022

15. Toward Snapshot Cross-Correlation Doppler Global Velocimetry for High-Speed Flows

Author

Ashley J. Saltzman, Steven J. Beresh, Sean P. Kearney, Chris Q. Crabtree, and Mikhail Slipchenko

Published

2022

16. MHz rate Flow Diagnostics in a Hypersonic Boundary Layer

Author

Naibo Jiang, Paul S. Hsu, Mikhail Slipchenko, Sukesh Roy, Daniel K. Lauriola, Austin M. Webb, Terrence R. Meyer, Mark Gragston, Ron Parker, Phillip Portoni, Conor McDemortt, and Timothy P. Wadhams

Abstract

MHz-rate Nitric Oxide Planar Laser-Induced Fluorescence (NO PLIF) imaging and MHz-rate Focused Laser Differential Interferometry (FLDI) were performed in hypersonic boundary layer at CUBRC 48” Mach 10 shock tunnel.

Published

2022

17. Mach 18 flow velocimetry with 100-kHz KTV and PLEET in AEDC Tunnel 9

Author

Naibo Jiang, Paul S. Hsu, Stephen W. Grib, Mikhail Slipchenko, David Shekhtman, Nick. J. Parziale, Mike S. Smith, Addison J. Spicer, and Sukesh Roy

Subjects

Electrical and Electronic Engineering, Engineering (miscellaneous), Atomic and Molecular Physics, and Optics

Abstract

Krypton Tagging Velocimetry (KTV) and Picosecond Laser Electronic Excitation Tagging (PLEET) velocimetry at a 100-kHz rate were demonstrated in Mach 18 flow conditions at the Arnold Engineering Development Center (AEDC) Tunnel 9 employing a burst-mode laser system and a custom optical parametric oscillator (OPO). The measured freestream flow velocities from both KTV and PLEET agreed well with the theoretical calculation. The increase in repetition rate provides better capability to perform time-resolved velocimetry measurements in hypersonic flow environments.

Published

2023

18. Burst-mode coherent anti-Stokes Raman scattering thermometry in the Sandia free-piston shock tube

Author

Sean Kearney, Kyle Daniel, Justin Wagner, Kyle Lynch, Charley Downing, Daniel Lauriola, Jason Leicht, Terry Meyer, and Mikhail Slipchenko

Published

2021

19. Development of Burst Mode KTP Optical Parametric Oscillator for MHZ PLIF with Extended Burst Durations

Author

Austin Webb, Christopher Crabtree, Mikhail Slipchenko, Sean Kearney, and Terrence Meyer

Published

2021

20. Development of an Injection-Seeded Tunable OPO for Doppler Global Velocimetry

Author

Christopher Crabtree, Amanda Braun, Austin Webb, Ashley Saltzman, Sean Kearney, Steven Beresh, and Mikhail Slipchenko

Published

2021

21. Matrix Isolation Spectroscopy in Helium Droplets

Author

Kirill Kuyanov-Prozument, Dmitry Skvortsov, Mikhail Slipchenko, Boris Sartakov, and Andrey Vilesov

Published

2011

22. Pulse-burst PIV in a high-speed wind tunnel.

Author

Steven Beresh, Sean Kearney, Justin Wagner, Daniel Guildenbecher, John Henfling, Russell Spillers, Brian Pruett, Naibo Jiang, Mikhail Slipchenko, Jason Mance, and Sukesh Roy

Subjects

PARTICLE image velocimetry, WIND tunnels, PULSED lasers, TURBULENCE, TRANSONIC flow, FLOW velocity

Abstract

Time-resolved particle image velocimetry (TR-PIV) has been achieved in a high-speed wind tunnel, providing velocity field movies of compressible turbulence events. The requirements of high-speed flows demand greater energy at faster pulse rates than possible with the TR-PIV systems developed for low-speed flows. This has been realized using a pulse-burst laser to obtain movies at up to 50 kHz, with higher speeds possible at the cost of spatial resolution. The constraints imposed by use of a pulse-burst laser are limited burst duration of 10.2 ms and a low duty cycle for data acquisition. Pulse-burst PIV has been demonstrated in a supersonic jet exhausting into a transonic crossflow and in transonic flow over a rectangular cavity. The velocity field sequences reveal the passage of turbulent structures and can be used to find velocity power spectra at every point in the field, providing spatial distributions of acoustic modes. The present work represents the first use of TR-PIV in a high-speed ground-test facility. [ABSTRACT FROM AUTHOR]

Published

2015