Horizontal bridges in polar dielectric liquids
10.1007/s00348-011-1216-x
Crossref journal-article
Springer Science and Business Media LLC
Experiments in Fluids (297)
Bibliography

Woisetschläger, J., Wexler, A. D., Holler, G., Eisenhut, M., Gatterer, K., & Fuchs, E. C. (2011). Horizontal bridges in polar dielectric liquids. Experiments in Fluids, 52(1), 193–205.

Authors 6
  1. Jakob Woisetschläger (first)
  2. Adam D. Wexler (additional)
  3. Gert Holler (additional)
  4. Mathias Eisenhut (additional)
  5. Karl Gatterer (additional)
  6. Elmar C. Fuchs (additional)
References 44 Referenced 35
  1. Aerov AA (2011) Why the Water Bridge does not collapse. Phys Rev E 84:036314 (10.1103/PhysRevE.84.036314)
  2. Armstrong LW (1893) Electrical phenomena. The Electrical Engineer, pp 154–155, 10 February 1893
  3. Briere GB (1964) Electrical conduction in purified polar liquids. Br J Appl Phys 15(4):413–417 (10.1088/0508-3443/15/4/310) / Br J Appl Phys by GB Briere (1964)
  4. Burcham CL, Saville DA (2000) Electrohydrodynamic stability of a liquid bridge: Microgravity experiments on a liquid bridge suspended in a dielectric gas. J Fluid Mech 405:37–56 (10.1017/S0022112099007193) / J Fluid Mech by CL Burcham (2000)
  5. Burcham CL, Saville DA (2002) Electrohydrodynamic stability: Taylor-Melcher theory for a liquid bridge suspended in a dielectric gas. J Fluid Mech 452:163–187 (10.1017/S0022112001006784) / J Fluid Mech by CL Burcham (2002)
  6. Del Giudice E, Fuchs EC, Vitiello G (2010) Collective molecular dynamics of a floating water bridge. WATER (Seattle) 2:69–82 / WATER (Seattle) by E Del Giudice (2010)
  7. Eisenhut M, Guo X, Paulitsch-Fuchs AH, Fuchs EC (2011) Aqueous phenol and ethylene glycol solutions in electrohydrodynamic liquid bridging. Cent Eur J Chem 9(3):391–403 (10.2478/s11532-011-0029-3) / Cent Eur J Chem by M Eisenhut (2011)
  8. Fuchs EC (2010) Can a century old experiment reveal hidden properties of water? Water (MDPI) 2:381–410 (10.3390/w2030381) / Water (MDPI) by EC Fuchs (2010)
  9. Fuchs EC, Woisetschläger J, Gatterer K, Maier E, Pecnik R, Holler G, Eisenkölbl H (2007) The floating water bridge. J Phys-D-Appl Phys 40:6112–6114 (10.1088/0022-3727/40/19/052) / J Phys-D-Appl Phys by EC Fuchs (2007)
  10. Fuchs EC, Gatterer K, Holler G, Woisetschläger J (2008) Dynamics of the floating water bridge. J Phys-D-Appl Phys 41:185502–185507 (10.1088/0022-3727/41/18/185502) / J Phys-D-Appl Phys by EC Fuchs (2008)
  11. Fuchs EC, Bitschnau B, Woisetschläger J, Maier E, Beuneu B, Teixeira J (2009) Neutron scattering of a floating heavy water bridge. J Phys-D-Appl Phys 42:065502:1–065502:4 (10.1088/0022-3727/42/6/065502) / J Phys-D-Appl Phys by EC Fuchs (2009)
  12. Fuchs EC, Agostinho LLF, Eisenhut M, Woisetschläger J (2010a) Mass and charge transfer within a floating water bridge, Laser Applications in Life Sciences. Proc SPIE 7376:1E1–1E15 / Proc SPIE by EC Fuchs (2010)
  13. Fuchs EC, Baroni P, Bitschnau B, Noirez L (2010b) Two-dimensional neutron scattering in a floating heavy water bridge. J Phys-D-Appl Phys 43:105502:1–105502:5 (10.1088/0022-3727/43/10/105502) / J Phys-D-Appl Phys by EC Fuchs (2010)
  14. Fuchs EC, Agostinho LLF, Wexler A, Wagterveld RM, Tuinstra J, Woisetschläger J (2011a) The behaviour of a floating water bridge under reduced gravity conditions. J Phys-D-Appl Phys 44:025501 (10.1088/0022-3727/44/2/025501) / J Phys-D-Appl Phys by EC Fuchs (2011)
  15. Fuchs EC, Bitschnau B, Di Fonzo S, Gessini A Woisetschläger J, and Bencivenga F (2011b) Inelastic UV scattering in a floating water bridge. J Phys Sc Appl 1(3) (in press) (10.17265/2159-5348/2011.03.002)
  16. Gonzalez H, McCluskey FMJ, Castellanos A, Barrero A (1989) Stabilization of dielectric liquid bridges by electric fields in the absence of gravity. J Fluid Mech 206:545 (10.1017/S0022112089002405) / J Fluid Mech by H Gonzalez (1989)
  17. Hipp M, Woisetschläger J, Reiterer P, Neger T (2004) Digital evaluation of interferograms. Measurement 36:53–66 (10.1016/j.measurement.2004.04.003) / Measurement by M Hipp (2004)
  18. Ho PP, Alfano RR (1979) Optical Kerr effect in liquids. Phys Rev A 20:2170–2187 (10.1103/PhysRevA.20.2170) / Phys Rev A by PP Ho (1979)
  19. Hülsheger H, Potel J, Niemann EG (1983) Electric field effects on bacteria and yeast cells. Radiat Environ Biophys 22:149–162 (10.1007/BF01338893) / Radiat Environ Biophys by H Hülsheger (1983)
  20. Jeong SI, Seyed-Yagoobi J (2003) Theoretical/numerical study of electrohydrodynamic pumping through conduction phenomenon. IEEE Trans Ind Appl 39:355–361 (10.1109/TIA.2003.808954) / IEEE Trans Ind Appl by SI Jeong (2003)
  21. Jeong SI, Seyed-Yagoobi J (2004) Fluid circulation in an enclosure generated by electrohydrodynamic conduction phenomenon. IEEE Trans Dielectrics Electrical Insul 11:899–910 (10.1109/TDEI.2004.1349796) / IEEE Trans Dielectrics Electrical Insul by SI Jeong (2004)
  22. Jones TB (2002) On the relationship of dielectrophoresis and electrowetting. Langmuir 18:4437–4443 (10.1021/la025616b) / Langmuir by TB Jones (2002)
  23. Kendall J (1916) The specific conductivity of pure water in equilibrium with atmospheric carbon dioxide. J Am Chem Soc 38:1480–1497 (10.1021/ja02265a004) / J Am Chem Soc by J Kendall (1916)
  24. Marin AG, Lohse D (2010) Building water bridges in air; electrohydrodynamics of the floating water bridge. Phys Fluids 22:122104 (10.1063/1.3518463) / Phys Fluids by AG Marin (2010)
  25. Melcher JR(1981) Continuum Electromechanics. Cambridge, MA: MIT Press, 1981. Copyright Massachusetts Institute of Technology. ISBN: 9780262131650. Also available online from MIT OpenCourseWare at http://ocw.mit.edu (accessed 01 19, 2011) under creative commons license attribution-noncommercial-share alike
  26. Melcher JR, Taylor GI (1969) Electrohydrodynamics: A Review of the role of interfacial shear stresses. Annu Rev Fluid Mech 1:111–146 (10.1146/annurev.fl.01.010169.000551) / Annu Rev Fluid Mech by JR Melcher (1969)
  27. Melcher JR, Warren EP (1971) Electrohydrodynamics of a current carrying semi-insulating jet. J Fluid Mech 47:127–143 (2 plates) (10.1017/S0022112071000971) / J Fluid Mech by JR Melcher (1971)
  28. Nishiumi H, Honda F (2009) Effects of electrolyte on floating water bridge. Res Let Phys Chem. doi: 10.1155/2009/371650 (10.1155/2009/371650)
  29. Onsager L (1934) Deviations from Ohm’s law in weak electrolytes. J Chem Phy 2(9):599–615 (10.1063/1.1749541) / J Chem Phy by L Onsager (1934)
  30. Pellat H (1896) Mesure de la force agissant sur les diélectriques liquides non électrisés placés dans un champ élitrique. C R Acad Sci Paris 123:691–696 / C R Acad Sci Paris by H Pellat (1896)
  31. Pickard WF (1962) An explanation of the de sumo to effect. J Appl Phys 33:941–942 (10.1063/1.1777194) / J Appl Phys by WF Pickard (1962)
  32. Pohl HA (1958) Some effects of nonuniform fields on dielectrics. J Appl Phys 29(8):1182–1188 (10.1063/1.1723398) / J Appl Phys by HA Pohl (1958)
  33. Ponterio RC, Pochylski M, Aliotta F, Vasi C, Fontanella ME, Saija F (2010) Raman scattering measurements on a floating water bridge. J Phys-D-Appl Phys 43:1754051–1754058 (10.1088/0022-3727/43/17/175405) / J Phys-D-Appl Phys by RC Ponterio (2010)
  34. Raco RJ (1968) Electrically supported column of liquid. Science 160(3825):311–312 (10.1126/science.160.3825.311) / Science by RJ Raco (1968)
  35. Ramos A, Castellanos A (1993) Bifurcation diagrams of axisymetric liquid bridges of arbitrary volume in electric and gravitational axial fields. Phys Fluids 6:207–225 / Phys Fluids by A Ramos (1993)
  36. Riddick JA, Bunger WB (1989) Organic solvents: Physical properties and methods of purification. Wiley, New York. ISBN 978-0471-08467-9 / Organic solvents: Physical properties and methods of purification by JA Riddick (1989)
  37. Saija F, Aliotta F, Fontanella ME, Pochylski M, Salvato G, Vasi C, Ponterio RC (2010) Communication: an extended model of liquid bridging. J Chem Phys 133:081104 (10.1063/1.3483690) / J Chem Phys by F Saija (2010)
  38. Saville DA (1997) Electrohydrodynamics: The Taylor-Melcher Leaky dielectric model. Ann Rev Fluid Mech 29:27–64 (10.1146/annurev.fluid.29.1.27) / Ann Rev Fluid Mech by DA Saville (1997)
  39. Sumoto I (1955) An interesting phenomenon observed on some dielectrics. J Phys Soc Jpn 10(6):494 (10.1143/JPSJ.10.494) / J Phys Soc Jpn by I Sumoto (1955)
  40. Watson PK (1998) Conduction, instabilities and breakdown in liquid dielectrics. In: Castellanos A (ed) Electrohydrodynamics, International Centre for Mechanical Sciences, CISM Courses and Lectures No. 380. Springer, Wien. ISBN 3-211-83137-1 / Electrohydrodynamics, International Centre for Mechanical Sciences, CISM Courses and Lectures No. 380 by PK Watson (1998)
  41. Widom A, Swain J, Silverberg J, Sivasubramanian S, Srivastava YN (2009) Theory of the Maxwell pressure tensor and the tension in a water bridge. Phys Rev E 80:016301:1–016301:7 (10.1103/PhysRevE.80.016301) / Phys Rev E by A Widom (2009)
  42. Wohlfarth CH (ed) (2008) SpringerMaterials—The Landolt-Börnstein Database ( http://www.springermaterials.com ). Springer, Berlin, Heidelberg, doi: 10.1007/978-3-540-75508-1_31 (10.1007/978-3-540-75508-1_31)
  43. Woisetschläger J, Gatterer K, Fuchs EC (2010) Experiments in a floating water bridge. Exp Fluids 48–1:121–131 (10.1007/s00348-009-0718-2) / Exp Fluids by J Woisetschläger (2010)
  44. Zhakin AJ (1998) Conduction phenomena in dielectric liquids. In: Castellanos A (ed) Electrohydrodynamics, International Centre for Mechanical Sciences, CISM Courses and Lectures No. 380. Springer, Wien. ISBN 3-211-83137-1 / Electrohydrodynamics, International Centre for Mechanical Sciences, CISM Courses and Lectures No. 380 by AJ Zhakin (1998)
Dates
Type When
Created 13 years, 10 months ago (Oct. 15, 2011, 1:13 a.m.)
Deposited 3 years, 8 months ago (Dec. 10, 2021, 9:08 p.m.)
Indexed 11 months, 2 weeks ago (Sept. 15, 2024, 3:48 a.m.)
Issued 13 years, 10 months ago (Oct. 16, 2011)
Published 13 years, 10 months ago (Oct. 16, 2011)
Published Online 13 years, 10 months ago (Oct. 16, 2011)
Published Print 13 years, 8 months ago (Jan. 1, 2012)
Funders 0

None

@article{Woisetschl_ger_2011, title={Horizontal bridges in polar dielectric liquids}, volume={52}, ISSN={1432-1114}, url={http://dx.doi.org/10.1007/s00348-011-1216-x}, DOI={10.1007/s00348-011-1216-x}, number={1}, journal={Experiments in Fluids}, publisher={Springer Science and Business Media LLC}, author={Woisetschläger, Jakob and Wexler, Adam D. and Holler, Gert and Eisenhut, Mathias and Gatterer, Karl and Fuchs, Elmar C.}, year={2011}, month=oct, pages={193–205} }