#References
2.
An
experimental investigation of the circumstances which determine
whether the motion of water shall be direct or sinuous, and of
the law of resistance in parallel channels
Osborne Reynolds
1883
·
Philosophical Transactions of the Royal Society of
LondonDOIdd5zmn
3.
Pattern
formation by turbulent cascades
Xander M de Wit, Michel Fruchart, Tali Khain,
Federico Toschi, Vincenzo Vitelli
March
2024
· NatureDOIgtpgqv
ISSN1476-4687
4.
Weather
Prediction by Numerical Process
Lewis Fry Richardson
1922
·
Cambridge University PressDOIfxg3d5
ISBN978-0-521-68044-8
5.
The
local structure of turbulence in incompressible viscous fluid
for very large Reynolds numbers
Andrei Nikolaevich Kolmogorov
1941
·
Doklady Akademii Nauk SSSRDOIcnwvwv
6.
Microelectromechanical Systems–Based
Feedback Control of Turbulence for Skin Friction
Reduction
Nobuhide Kasagi,
Yuji Suzuki, Koji Fukagata
2009
·
Annual Review of Fluid MechanicsDOIdhhc2h
7.
Description d’une machine pour mesurer
la vitesse des eaux courantes et le sillage des
vaisseaux
Henri
Pitot
1732
·
Histoire de l’Académie royale des sciences avec les mémoires
de mathématique et de physique tirés des registres de cette
Académie8.
9.
On the
Convection of Heat from Small Cylinders in a Stream of Fluid:
Determination of the Convection Constants of Small Platinum
Wires, with Applications to Hot-Wire Anemometry
Louis Vessot King
1914
·
Proceedings of the Royal Society of London. Series A,
Containing Papers of a Mathematical and Physical
CharacterDOIbczzkz
ISSN0950-1207
10.
11.
HL Dryden,
AM Kuethe
January
1930
12.
The
construction of a hot wire anemometer with linear scale and
negligible lag
M
Ziegler
1934
·
Noord-Hollandsche Uitg.-Mij.13.
Feedback
Control Theory for Constant‐Temperature Hot‐Wire
Anemometers
Peter
Freymuth
May 1967
·
Review of Scientific InstrumentsDOIfk2828
ISSN0034-6748
14.
Frequency response and electronic
testing for constant-temperature hot-wire
anemometers
P
Freymuth
July 1977
·
Journal of Physics E: Scientific InstrumentsISSN0022-3735
15.
16.
High
temperature gradient calorimetric wall shear stress micro-sensor
for flow separation detection
Cécile Ghouila-Houri, Quentin Gallas, Eric
Garnier, Alain Merlen, Romain Viard, Abdelkrim Talbi, Philippe
Pernod
October 2017
·
Sensors and Actuators A: PhysicalDOIgcmphq
ISSN0924-4247
17.
High
temperature gradient micro-sensors for skin-friction measurement
in flow control applications
C Ghouila-Houri, M Benedito, E Garnier, A
Talbi, A Mazzamurro, R Viard, A Merlen, P Pernod, T Arnoult, Q
Gallas
August 2021
·
2021 Symposium on Design, Test, Integration & Packaging
of MEMS and MOEMS (DTIP)DOIgsdf2p
18.
A study
of the constant-temperature hot-wire anemometer
AE Perry, GL Morrison
June
1971
· Journal of Fluid
MechanicsDOId9mztq
ISSN1469-7645,
0022-1120
19.
A
Micromachined Polysilicon Hot-Wire Anemometer
Fukang Jiang, Chih-Ming Ho
1994
20.
A micro
silicon hot-wire anemometer
M Mischler, Fan-Gang Tseng, U Ulmanella,
Chih-Ming Ho, Fukang Jiang, Yu-Chong Tai
November
1995
· 1995 IEEE TENCON. IEEE Region
10 International Conference on Microelectronics and VLSI.
“Asia-Pacific Microelectronics 2000.”
ProceedingsDOIc37smm
21.
Turbulence measurements using a
nanoscale thermal anemometry probe
Sean CC Bailey, Gary J Kunkel, Marcus
Hultmark, Margit Vallikivi, Jeffrey P Hill, Karl A Meyer,
Candice Tsay, Craig B Arnold, Alexander J Smits
November
2010
· Journal of Fluid
MechanicsDOIfd5kct
ISSN1469-7645,
0022-1120
22.
Development and characterization of a
nano-scale temperature sensor (T-NSTAP) for turbulent
temperature measurements
Gilad Arwatz, Yuyang Fan, Carla Bahri, Marcus
Hultmark
February 2015
·
Measurement Science and TechnologyDOIggkxdt
ISSN0957-0233
23.
Design
and validation of a nanoscale cross-wire probe
(X-NSTAP)
Matthew K Fu,
Yuyang Fan, Marcus Hultmark
May 2019
·
Experiments in FluidsDOIg9847t
ISSN1432-1114
24.
Sub-miniature hot-wire anemometry for
high Reynolds number turbulent flows
Milad Samie
January
2018
25.
A
micro-scale hot wire anemometer based on low stress (Ni/W)
multi-layers deposited on nano-crystalline diamond for air flow
sensing
A Talbi, L Gimeno,
J-C Gerbedoen, R Viard, A Soltani, V Mortet, V Preobrazhensky, A
Merlen, P Pernod
November 2015
·
Journal of Micromechanics and MicroengineeringDOIgsdf4p
ISSN0960-1317
26.
Micro
thermal anemometer (µTA) for turbulence measurement:
development, fabrication and characterization
Baptiste Baradel, Olivier Léon, Alain
Giani, Philippe Combette, Fabien Méry
August
2021
· 2021 Symposium on Design,
Test, Integration & Packaging of MEMS and MOEMS
(DTIP)DOIgsdf2g
27.
An
outline of the techniques available for the measurement of skin
friction in turbulent boundary layers
KG Winter
January 1979
·
Progress in Aerospace SciencesDOIfqx6j9
ISSN0376-0421
28.
A second
generation MEMS surface fence sensor for high resolution wall
shear stress measurement
Tilmann von Papen, Ulrich Buder, Ha Duong Ngo,
Ernst Obermeier
July 2004
·
Sensors and Actuators A: PhysicalDOIcrvwbh
ISSN0924-4247
29.
Calibration and use of a MEMS surface
fence for wall shear stress measurements in turbulent
flows
Ralph Savelsberg,
Michael Schiffer, Ernst Obermeier, Ian P Castro
August
2012
· Experiments in
FluidsDOIf36w5c
ISSN1432-1114
30.
IC2
November 2019
·
A Guide to Wall Shear Stress Measurement31.
Nano-newton drag sensor based on
flexible micro-pillars
S
Große, W Schröder, C Brücker
August 2006
·
Measurement Science and TechnologyDOIccxvz7
ISSN0957-0233
32.
Measurement of turbulent wall
shear-stress using micro-pillars
EP Gnanamanickam, B Nottebrock, S Große, JP
Sullivan, W Schröder
October 2013
·
Measurement Science and TechnologyDOIhbt7p3
ISSN0957-0233
33.
MEMS
Shear Stress Sensors: Promise and Progress
Mark Sheplak, Louis Cattafesta, Toshikazu
Nishida, Catherine McGinley
2006
· 24th
AIAA Aerodynamic Measurement Technology and Ground Testing
ConferenceDOIqxmc
34.
Experiments on the surface-friction
experienced by a plane moving through water
William Froude
1872
·
British Association for the Advancement of
Science35.
Martin Arnold
Schmidt
1988
·
Massachusetts Institute of Technology36.
A
microfabricated floating-element shear stress sensor using
wafer-bonding technology
J
Shajii, K-Y Ng, MA Schmidt
June 1992
·
Journal of Microelectromechanical SystemsDOIfrxvng
ISSN1941-0158
37.
Micromachined sensors for static and
dynamic shear-stress measurements in aerodynamic
flows
A Padmanabhan, M
Sheplak, KS Breuer, MA Schmidt
June 1997
·
Proceedings of International Solid State Sensors and
Actuators Conference (Transducers ’97)DOIdfwrxt
38.
Dynamic
calibration of a shear stress sensor using Stokes layer
excitation
Mark Sheplak,
Aravind Padmanabhan, Martin Schmidt, Kenneth Breuer
January
1998
· 36th AIAA Aerospace Sciences
Meeting and ExhibitDOIqxm6
39.
Dynamic
calibration technique for thermal shear-stress sensors with mean
flow
V Chandrasekaran, A
Cain, T Nishida, LN Cattafesta, M Sheplak
July
2005
· Experiments in
FluidsDOIbmd8sz
ISSN1432-1114
40.
A
Microscale Differential Capacitive Direct Wall-Shear-Stress
Sensor
Vijay
Chandrasekharan, Jeremy Sells, Jessica Meloy, David P Arnold,
Mark Sheplak
June 2011
·
Journal of Microelectromechanical SystemsDOIfb3rm5
ISSN1941-0158
41.
Characterization of an Optical Moiré
Wall Shear Stress Sensor for Harsh Environments
David A Mills, Tai-An Chen, Mark
Sheplak
January 2015
·
53rd AIAA Aerospace Sciences MeetingDOIqtq6
ISBN978-1-62410-343-8
42.
Surface
Micromachined Thermal Shear Stress Sensor
Chang Liu, Yu-Chong Tai, Jin-Biao Huang,
Chih-Ming Ho
1994
·
American Society of Mechanical Engineers Digital
CollectionDOIhbt9vc
43.
Improved
micro thermal shear-stress sensor
Jin-Biao Huang, S Tung, Chih-Ming Ho, Chang
Liu, Yu-Chong Tai
April 1996
·
IEEE Transactions on Instrumentation and
MeasurementDOIftr88d
ISSN1557-9662
44.
A
surface-micromachined shear stress imager
Fukang Jiang, Yu-Chong Tai, B Gupta, R
Goodman, S Tung, Jin-Biao Huang, Chih-Ming Ho
February
1996
· Proceedings of Ninth
International Workshop on Micro Electromechanical
SystemsDOId5r2vn
45.
Shear
Stress Measurements on an Airfoil Surface Using Micro-Machined
Sensors.
Nagaoka
Yoshihiro, Hani Grant Alexander, Chih-Ming Ho, Wayne Liu
1997
·
TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS
Series BDOIfjpsz8
46.
Statistical analysis on wall shear
stress of turbulent boundary layer in a channel flow using
micro-shear stress imager
Norimasa Miyagi, Motoaki Kimura, Hideo Shoji,
Atsusi Saima, Chih-Ming Ho, Steve Tung, Yu-Chong Tai
October
2000
· International Journal of Heat
and Fluid FlowDOIcc7xkj
ISSN0142-727X
47.
Characterization of a
Silicon-Micromachined Thermal Shear-Stress Sensor
Mark Sheplak, Venkataraman
Chandrasekaran, Anthony Cain, Toshikazu Nishida, Louis N
Cattafesta
June 2002
·
AIAA JournalDOIbjddzv
ISSN0001-1452
48.
AEROMEMS
- An investigation into the viability of MEMS technology for
boundary layer control
Clyde Warsop
1999
· 17th
applied aerodynamics conference49.
AEROMEMS-II: A european research
effort to develop MEMS based flow control
technologies
Clyde
Warsop
June 2004
DOIhbvmpw
ISBN978-1-62410-030-7
50.
Micro
gas-flow sensor with integrated heat sink and flow
guide
Li Qiu, Stefan Hein,
Ernst Obermeier, Axel Schubert
June 1996
·
Sensors and Actuators A: PhysicalDOIcgx86w
ISSN0924-4247
51.
A MEMS
skin-friction sensor for time resolved measurements in separated
flows
M Schober, E
Obermeier, S Pirskawetz, H-H Fernholz
April
2004
· Experiments in
FluidsDOIfksft2
ISSN1432-1114
52.
AeroMEMS
wall hot-wire anemometer on polyimide foil for measurement of
high frequency fluctuations
U Buder, A Berns, E Obermeier, R Petz, W
Nitsche
October 2005
·
2005 IEEE SENSORSDOId82vcs
ISSN1930-0395
53.
AeroMEMS
polyimide based wall double hot-wire sensors for flow separation
detection
Ulrich Buder,
Ralf Petz, Moritz Kittel, Wolfgang Nitsche, Ernst
Obermeier
March 2008
·
Sensors and Actuators A: PhysicalDOIdfprnf
ISSN0924-4247
54.
Romain Viard,
Abdelkrim Talbi, Philippe Pernod, Alain Merlen, Vladimir
Preobrazhensky
January
2013
55.
Romain Viard
May 2010
·
Ecole Centrale de Lille56.
High
temperature gradient micro-sensor for wall shear stress and flow
direction measurements
Cécile Ghouila-Houri, J Claudel, J-C
Gerbedoen, Q Gallas, E Garnier, A Merlen, R Viard, A Talbi, P
Pernod
December 2016
·
Applied Physics LettersDOIgsdf4r
ISSN0003-6951,
1077-3118
57.
B Kjellstroem, S Hedberg, Nykoeping
(Sweden) AB Atomenergi
November 1968
·
AB Atomenergi, Nykoeping (Sweden)58.
AF
Orlando, RJ Moffat, WM Kays
May
1974
59.
Lamyaa A
El-Gabry, Douglas R Thurman, Philip E Poinsatte
December
2014
60.
A
micro-hot-wire anemometry probe with elongated stubs for
turbulent boundary layer measurements
Baptiste Baradel, Alain Giani, Fabien Méry,
Philippe Combette, Olivier Léon
March
2024
DOIp8v3
ISSN2693-5015
61.
The
Measurement of Wall Shear Stress
Joseph H Haritonidis
1989
·
Advances in Fluid Mechanics MeasurementsDOIfx7278
ISBN978-3-642-83787-6
62.
MEMS-based pressure and shear stress
sensors for turbulent flows
Lennart Löfdahl, Mohamed Gad-el-Hak
August
1999
· Measurement Science and
TechnologyDOIbvrfft
ISSN0957-0233
63.
Microfabricated Shear Stress Sensors,
Part 1: Design and Fabrication
Tao Pan, Daniel Hyman, Mehran Mehregany, Eli
Reshotko, Steven Garverick
January 1999
·
AIAA JournalDOIc6kwqs
ISSN0001-1452
64.
Silicon
carbide for microelectromechanical systems
M Mehregany, CA Zorman, S Roy, AJ Fleischman,
N Rajan
March 2000
·
International Materials ReviewsDOIbc82d5
ISSN0950-6608
65.
Stephen Brian Horowitz, Mark Sheplak,
Toshikazu Nishida, Louis Nicholas Cattafesta III
November
2014
66.
67.
Simulation and Testing of a New Type
of MEMS Thermal Shear-Stress Sensor
Julien Weiss, Quentin Schwaab, Alain Giani,
Céline Guigue, Philippe Combette, Benoit Charlot
June
2016
· 32nd AIAA Aerodynamic
Measurement Technology and Ground Testing ConferenceDOIg959v9
68.
Silicon
carbide MEMS for harsh environments
M Mehregany, CA Zorman, N Rajan, Chien Hung
Wu
August 1998
·
Proceedings of the IEEEDOIdpv557
ISSN1558-2256
69.
Dry
Etching of SiC for Advanced Device Applications
JR Flemish, K Xie, GF McLane
December
1996
· MRS Online Proceedings
LibraryDOIb84sfc
ISSN1946-4274
70.
Operation of α(6H)-SiC pressure sensor
at 500 °C
Robert S Okojie,
Alexander A Ned, Anthony D Kurtz
April
1998
· Sensors and Actuators A:
PhysicalDOIfcghr3
ISSN0924-4247
71.
Robert S
Okojie, Gustave Fralick, George J Saad
July
2004
72.
High
Temperature Silicon Carbide CMOS Integrated
Circuits
David T Clark,
Ewan P Ramsay, AE Murphy, Dave A Smith, Robin F Thompson, RaR
Young, Jennifer D Cormack, C Zhu, S Finney, John Fletcher
2011
·
Materials Science ForumDOIc37c9b
ISSN1662-9752
73.
Robert S
Okojie, P Neudeck, S Wrbanek, J Wrbanek
November
2022
74.
Pd-Ti
(Palladium-Titanium)
H
Okamoto
February 2013
·
Journal of Phase Equilibria and DiffusionDOIgsfmx8
ISSN1863-7345
75.
76.
Hot-wire
anemometry
AE Perry
1982
·
Clarendon Press ; Oxford University PressISBN978-0-19-856327-3
77.
A
hot-film air flow sensor for elevated
temperatures
Vivekananthan
Balakrishnan, Toan Dinh, Thanh Nguyen, Hoang-Phuong Phan,
Tuan-Khoa Nguyen, Dzung Viet Dao, Nam-Trung Nguyen
January
2019
· Review of Scientific
InstrumentsDOIgmjgcf
ISSN0034-6748
78.
Highly
sensitive 3C-SiC on glass based thermal flow sensor realized
using MEMS technology
Vivekananthan Balakrishnan, Toan Dinh,
Hoang-Phuong Phan, Dzung Viet Dao, Nam-Trung Nguyen
August
2018
· Sensors and Actuators A:
PhysicalDOIgfbgrf
ISSN0924-4247