User:Csnsm

**Omar**
	; European Isotope Separation On-Line
Height:	1.81 m
Hair Color:	bLACK this text displayed if data2 not defined
Data 3 (data hidden if data3 empty or not defined):

The following page is meant as a "test page" for the main wiki being developed for the Eurisol Task 9 work. Please forgive any formatting and typographical errors.

Stimulated emission (in which photons "clone" themselves) was predicted by Einstein in his kinetic derivation of E=hν, and led to the development of the laser. Einstein's derivation also provoked further developments in the quantum treatment of light, the semiclassical model and quantum electrodynamics (see below).

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In quantum field theory, probabilities of events are computed by summing over all possible ways in which they can happen, as in the Feynman diagram shown here.

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A billion articles is a million million^[1] articles.

Table[edit]

RFQ Coolers Around the World
Name	Input Beam	Input Emittance	Cooler Length	R₀	RF Voltage, Freq, DC	Mass Range	Axial Voltage	Pressure	Output Beam Qualities
Collette^[2]	60 keV ISOLDE beam decelerated to ≤ 10 eV	~ 30 π mm mrad	504 mm (15 segments, electrically isolated)	7 mm	Freq : 450 – 700 kHz	0.25 V/cm	10-2 mbar He	--
LPC cooler at GANIL	--	Up to ~ 100 π mm mrad	470 mm (26 segments, electrically isolated)	15 mm	RF : up to 250 V, Freq : 500 kHz – 2.2 MHz	--	--	20-30 mTorr	--
SHIPTRAP cooler			1 m (29 segments, electrically insulated)	3.9 mm	RF: 30-200 Vpp, Freq: 800 kHz – 1.2 MHz		Variable: 0.25 – 1 V/mm	~ 5×10-3 mbar He	--
JYFL cooler	IGISOL type beam at 40 keV	Up to 17 π mm mrad	400 mm (16 segmentes)	10 mm	RF: 200 V, Freq: 300 kHz – 800 kHz	--	~ 0.1/cm	~ 10-1 mbar He	Energy spread ≈ 10-5 of the total 40 keV energy
MAFF Cooler and Ion Funnel	energy spread ΔE = 100 eV	Θmax= 65°(simuliert)	450mm	30mm	100 –150 Vpp, 5 MHz	--	~ 0.5 V/cm	~ 0.1 mbar Helium	energy spread ΔE = 5 eV, Emittance @ 30keV: from = 36p mm mrad to eT = 6p mm mrad
Freq : 450 – 700 kHz	RF : up to 250 V, Freq : 500 kHz – 2.2 MHz	RF: 30-200 Vpp, Freq: 800 kHz – 1.2 MHz	RF: 200 V, Freq: 300 kHz – 800 kHz	100 –150 Vpp, 5 MHz	--	--	~125 V, ~1 MHz	Inter vane voltage = 100 kV, 12-MHz	--
LEBIT ion cooler	5 keV–DC beams	--	--	--	--	--	--	He ≈ 1 x 10−1 mbar (high-pressure section)	--
ISCOOL	--	--	800 mm (segmented)	20 mm	--	--	~ 0.1V/cm (using wedge configuration)	between 0,01 and 0,1 mbar helium	--
ISOLTRAP cooler	60-keV ISOLDE ion beam	--	881.5 mm (segmented)	6 mm	≈125 V, ≈ 1 MHz.	--	--	6 ×10-3 mbar He	elong ≈ 10 eV us, etrans ≈ 10p mm mrad.
--	--	--	--	--	--	--	--	--	--

External links[edit]

Eurisol Project The Eurisol Project main page

Eurisol Design Study The Eurisol Design Study main page

^ "Wikipedia Reaches 1,000,000 Articles". Slashdot. March 1, 2006.
^ M. Sewtz, C. Bachelet, N. Chauvin, C. Guénaut, E. Leccia, D. Le Du and D. Lunney (2005). "Deceleration and cooling of heavy ion beams: The COLETTE project". Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. 240 (Pages 55-60).{{cite journal}}: CS1 maint: multiple names: authors list (link)

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[million-1] "Wikipedia Reaches 1,000,000 Articles". Slashdot. March 1, 2006.

[Colette-2] M. Sewtz, C. Bachelet, N. Chauvin, C. Guénaut, E. Leccia, D. Le Du and D. Lunney (2005). "Deceleration and cooling of heavy ion beams: The COLETTE project". Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. 240 (Pages 55-60).{{cite journal}}: CS1 maint: multiple names: authors list (link)

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