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2014-02-28T11:33:26Z

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en>AnomieBOT: Dating maintenance tags: {{Expert-subject}}

2014-01-27T21:22:38Z

Dating maintenance tags: {{Expert-subject}}

← Older revision		Revision as of 23:22, 27 January 2014
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	~~Dalton~~ is [~~http://Photo.net/gallery/tag-search/search?query_string=what%27s+written what'~~s ~~written~~] ~~by his birth certificate regrettably he never really enjoyed reading that name. The ideal hobby for him also his kids is farming but he'~~s ~~been on new things a short time ago. Auditing is~~ where ~~his primary income originates from. Massachusetts is where that he~~ and ~~his wife live comfortably. He's not godd at design but may also want to check their website: http://prometeu~~.~~net<br><br>~~		The '''multipactor effect''' is a phenomenon in [[radio frequency]] (RF) [[amplifier]] [[vacuum tube]]s and [[waveguide]]s, where, under certain conditions, secondary [[electron]] emission in resonance with an alternating electric field leads to exponential electron multiplication, possibly damaging and even destroying the RF device.

	~~my web site~~ - [http://~~prometeu~~.~~net clash~~ of ~~clans hack no survey or password~~]		==Description==
			The multipactor effect occurs when electrons accelerated by [[radio-frequency]] (RF) fields are self-sustained in a [[vacuum]] (or near vacuum) via an [[electron avalanche]] caused by [[secondary electron emission]]. The impact of an electron to a surface can, depending on its energy and angle, release one or more [[secondary electrons]] into the vacuum. These electrons can then be accelerated by the RF fields and impact with the same or another surface. Should the impact energies, number of electrons released and timing of the impacts be such that a sustained multiplication of the number of electrons occurs, the phenomenon can grow exponentially and may lead to operational problems of the RF system such as damage of RF components or loss/distortion of the RF signal.

			==Mechanism==
			The mechanism of multipactor depends on the orientation of an RF electric field with respect to the surface. There are two types of multipactor: two-surface multipactor on metals and single-surface multipactor on dielectrics.

			===Two-surface multipactor on metals===
			This is a multipactor effect that occurs in the gap between metallic electrodes. Often, an RF electric field is normal to the surface. A [[resonance]] between electron flight time and RF field cycle is a mechanism for multipactor development.

			The existence of multipactor is dependent on the following three conditions being met: The average number of electrons released is greater than or equal to one per incident electron (this is dependent on the [[secondary electron yield]] of the surface) ''and'' the time taken by the electron to travel from the surface from which it was released to the surface it impacts with is an integer multiple of one half of the RF period ''and'' the average secondary electron yield is greater than or equal to one.

			===Single-surface multipactor on dielectrics===
			This is a multipactor effect that occurs on a dielectric surface. Often, an RF electric field is parallel to the surface. The positive charge accumulated on the dielectric surface returns electrons back to the surface. A single surface multipactor event is also possible on a metallic surface in the presence of a crossed static magnetic field.

			==Frequency-Gap Product in Two Surface Multipactor==
			The conditions under which multipactor will occur in two surface multipactor can be described by a quantity called the frequency-gap product. Consider a two surface setup with the following definitions:

			:<math> d </math>, distance or gap between the surfaces (called the [[mean free path]])
			:<math> \omega </math>, angular frequency of the RF field
			:<math> V_0 </math>, peak plate to plate RF voltage
			:<math> E_0 </math>, peak electric field between the surfaces, equal to <math>V_0</math>/<math>d</math>.

			The RF voltage varies sinusoidally. Consider the time at which the voltage at electrode A passes through 0 and starts to become negative. Assuming that there is at least 1 free electron near A, that electron will begin to accelerate to the right toward electrode B. It will continue to accelerate and reach a maximum velocity ½ of a cycle later just as the voltage at electrode B begins to become negative. If the electron(s) from electrode A strike electrode B at this time and produce additional free electrons, these new free electrons will begin to accelerate toward electrode A. The process may then repeat causing multipactor. We now find the relationship between the plate spacing, RF frequency, and RF voltage that causes the strongest multipactor resonance.

			Consider a point in time at which electrons have just collided with electrode A at position d/2. The electric field is at zero and is beginning to point to the left so that the newly freed electrons are accelerated toward the right. Newton’s equation of motion of the free electrons is

			:<math> a(t)=\frac{F(t)}{m} </math>
			:<math> \ddot{x}(t) = \frac{qE_0}{m}~\sin(\omega t) </math>
			The solution to this differential equation is
			:<math> x(t) = -\frac{qE_0}{m \omega^2}\sin(\omega t) + \frac{qE_0}{m \omega}t - \frac{d}{2} </math>
			where we’ve assumed that when the electrons initially leave the electrode they have zero velocity. We know that resonance happens if the electrons arrive at the rightmost electrode after one half of the period of the RF field, <math> t_{\frac{1}{2}}=\frac{\pi}{\omega} </math>. Plugging this into our solution for <math>x(t)</math> we get

			:<math> x(t_{\frac{1}{2}}) = -\frac{qE_0}{m \omega^2}\sin(\omega t_{\frac{1}{2}}) + \frac{qE_0}{m \omega} t_{\frac{1}{2}} - \frac{d}{2} </math>

			:<math> \frac{d}{2} = -\frac{qE_0}{m \omega^2}\sin(\omega \frac{\pi}{\omega}) + \frac{qE_0}{m \omega} \frac{\pi}{\omega} - \frac{d}{2} </math>

			Rearranging and using the frequency <math>f</math> instead of the angular frequency gives
			:<math> fd = \frac{1}{2\sqrt\pi}\sqrt \frac{qV_0}{m}</math>.

			The product <math> fd </math> is called the frequency-gap product. Keep in mind that this equation is a criterion for greatest amount of resonance, but multipactor can still occur when this equation is not satisfied.

			==History==
			This phenomenon was first observed by the French physicist [[Camille Gutton]], in 1924, at Nancy.

			Multipactor was identified and studied in 1934 by [[Philo T. Farnsworth]], the inventor of electronic television, who attempted to take advantage of it as an amplifier. More commonly nowadays, it has become an obstacle to be avoided for normal operation of [[particle accelerators]], [[vacuum electronics]], [[radars]], [[satellite communication]] devices, and so forth. A novel form of multipactor has been proposed (Kishek, 1998), and subsequently experimentally observed, in which charging of a [[dielectric]] surface considerably changes the dynamics of the multipactor discharge.

			==References==
			More information on ''multipactor'' may be found in:
			* [http://gallica.bnf.fr/ark:/12148/bpt6k3131z/f467.table C. Gutton, ''Sur la décharge électrique à fréquence très élevée'', Comptes-Rendus Hebdomadaires des Séances de l'Académie des Sciences, vol.178, p.467, 1924]
			* P.T. Farnsworth, ''Television by Electron Image Scanning'', Journal of the Franklin Institute, vol.2, p.411, 1934
			* J. Rodney M. Vaughan, ''Multipactor'', IEEE Trans. Electron Devices, vol. 35, No 7, July 1988.
			* Rami A. Kishek, Y.Y. Lau, L.K. Ang, A. Valfells, and R.M. Gilgenbach, ''Multipactor Discharge on Metals and Dielectrics: Historical Review and Recent Theories'', Physics of Plasmas 5 (5), 2120 (1998)
			* R. A. Kishek and Y. Y. Lau, ''Multipactor Discharge on a Dielectric'', Phys. Rev. Lett. 80, 193 (1998). 90.
			* A. Valfells, R. A. Kishek, and Y. Y. Lau, ''Frequency Response in Multipactor Discharge'', Phys. Plasma 5, 300 (1998)
			* R. A. Kishek, ''Interaction of multipactor discharge and rf structures'', Ph.D. dissertation, University of Michigan, Ann Arbor (1997)
			* L. K. Ang, Y. Y. Lau, R. A. Kishek, and R. M. Gilgenbach, ''Power Deposited on a Dielectric by Multipactor Discharge'', IEEE Trans. Plasma Sci. 26, 290 (1998)
			* A. Valfells, J. P. Verbonceour, and Y. Y. Lau, ''Space Charge Effects on Multipactor on Dielectric'', IEEE Trans. Plasma Sci. 28, 529 (2000)
			* A. Valfells, ''Multipactor discharge: frequency response, suppression, and relation to window breakdown'', Ph.D. dissertation, University of Michigan, Ann Arbor (2000)
			* R.B. Anderson, W.D. Getty, M.L. Brake, Y.Y. Lau, R.M. Gilgenbach, A. Valfells, ''Multipactor experiment on a dielectric surface'', Rev. Sci. Instrum.,72, 3095 (2001)
			* R.B. Anderson, ''Mulitpactor experiment on a dielectric surface'', Ph.D. dissertation, University of Michigan, Ann Arbor (2001)
			* Spilios Riyopoulos, ''Theory of electron Multipacting in crossed fields'', Phys Plasmas 2 Vol. 2, No 8 August page 3194-3213


			'''Online'''

			* [http://conferences.esa.int/03C26/papers/a019.pdf Study of the ''Multipactor effect in multi-carrier operation inside space microwave components''] Ph. Mader, J. Puech, H. Dillenbourg, Ph. Lepeltier, L. Lapierre, J. Sombrin. PDF Accessed Decembaer 2006

			* [http://stinet.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=AD0601069 ''Breakdown In Waveguides Due To The Multipactor Effect.''] H.M. Wachowski, Aerospace Corp El Segundo California, May 1964. Accessed December 2006

			* [http://deepblue.lib.umich.edu/bitstream/2027.42/71183/2/RSINAK-72-7-3095-1.pdf ''Multipactor experiment on a dielectric surface''] R.B. Anderson, W.D. Getty, M.L. Brake, Y.Y. Lau, R.M. Gilgenbach, A. Valfells, Rev. Sci. Instrum., 72, 3095, July 2001

			==See also==
			* [[Electron avalanche]]
			* [[Fusor]]
			* [[Capacitively coupled plasma]]


			[[Category:Electrical phenomena]]
			[[Category:Plasma physics]]
			[[Category:Accelerator physics]]

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