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| {{Other uses}}
| | == silent atmosphere == |
| [[File:1937-French-cyclotron.jpg|thumb|A French cyclotron, produced in [[Zurich]], [[Switzerland]] in 1937]]
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| [[File:Cyclotron.jpg|thumb|A modern cyclotron for radiation therapy]]
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| A '''cyclotron''' is a type of [[particle accelerator]] in which [[charged particle]]s accelerate outwards from the center along a spiral path. The particles are held to a spiral trajectory by a static magnetic field and accelerated by a rapidly varying ([[radio frequency]]) electric field.
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| == History ==
| | 'Color', and into the shadows, flashed the room, followed by, Hyperion East, and Caroline, had no choice but to keep up.<br><br>'old guy, dare threaten [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-12.html 腕時計 メンズ casio] me as long as I get the championship, and that exposure will naturally not low, I do not believe the time you dare me shot.' gritted his teeth, [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-2.html カシオ 時計 プロトレック] Yan Li Yin channels over cup bitter end filling one, but it is found that his arm, has promised more difficult to hide the shaking, it seems to be because of fear for some reason<br><br>If you did not get the championship, three strong imperial struggle to kill, God will make him nowhere, Shimoji blind alley.<br><br>three hundred and [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-4.html カシオ 電波ソーラー時計] fourteenth [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-14.html カシオ 腕時計 ソーラー 電波] chapter windfall<br><br>three hundred and fourteenth chapter windfall<br><br>under the night sky, the shadow of four Shanlue a quiet, silent atmosphere, filled with a few people in between.<br><br>'Hey, [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-8.html カシオ レディース 電波ソーラー腕時計] old man law, we wasted a night time, so go back empty-handed?' toes tap on the roof, |
| The cyclotron was invented and patented<ref name = patent>
| | 相关的主题文章: |
| {{US patent reference
| | <ul> |
| |inventor=Lawrence, E. O.
| | |
| |y=1934 |m=02 |d=20
| | <li>[http://www.cqwkc.net/forum.php?mod=viewthread&tid=80777 http://www.cqwkc.net/forum.php?mod=viewthread&tid=80777]</li> |
| |title=[http://www.google.com/patents?vid=1948384 Method and apparatus for the acceleration of ions]
| | |
| |number=1948384
| | <li>[http://www.sztjjt.cn/plus/feedback.php?aid=106 http://www.sztjjt.cn/plus/feedback.php?aid=106]</li> |
| }}</ref> by [[Ernest Lawrence]] of the [[University of California, Berkeley]], where it was first operated in 1932.<ref name="Physics">
| | |
| {{cite book
| | <li>[http://ah120.gotoip4.com/bbs/home.php?mod=space&uid=6952 http://ah120.gotoip4.com/bbs/home.php?mod=space&uid=6952]</li> |
| |last1=Alonso |first1=M.
| | |
| |last2=Finn |first2=E.
| | </ul> |
| |year=1992
| |
| |title=Physics
| |
| |publisher=[[Addison Wesley]]
| |
| |isbn=978-0-201-56518-8
| |
| }}</ref> A graduate student, [[M. Stanley Livingston]], did much of the work of translating the idea into working hardware.<ref>
| |
| {{cite web
| |
| |url=http://www.aps.org/programs/outreach/history/historicsites/lawrencelivingston.cfm
| |
| |title=Ernest Lawrence and M. Stanley Livingston
| |
| |publisher=[[University of California, Berkeley]]
| |
| }}</ref> Lawrence read an article about the concept of a drift tube [[linac]] by [[Rolf Widerøe]],<ref>
| |
| {{cite journal
| |
| |last=Widerøe |first=R.
| |
| |year=1928
| |
| |title=Ueber Ein Neues Prinzip Zur Herstellung Hoher Spannungen
| |
| |language=German
| |
| |journal=[[Archiv für Elektronik und Übertragungstechnik]]
| |
| |volume=21 |issue=4 |pages=387
| |
| |doi=10.1007/BF01656341
| |
| }}</ref><ref>
| |
| {{Cite web
| |
| |date=8 December 2008
| |
| |title=Breaking Through: A Century of Physics at Berkeley. 2. The Cyclotron.
| |
| |url=http://bancroft.berkeley.edu/Exhibits/physics/bigscience02.html
| |
| |publisher=[[Bancroft Library]], [[UC Berkeley]]
| |
| |archiveurl=http://www.webcitation.org/65it02HeS | |
| |archivedate=2012-02-25
| |
| |deadurl=
| |
| }}</ref> who had also been working along similar lines with the [[betatron]] concept. The first European cyclotron was constructed in [[Leningrad]] in the physics department of the [[V.G. Khlopin Radium Institute|Radium Institute]], headed by {{ill2|Vitaly Khlopin|ru|Хлопин, Виталий Григорьевич}}. This instrument was first proposed in 1932 by [[George Gamow]] and {{ill2|Lev Mysovskii|ru|Мысовский, Лев Владимирович}} and was installed and became operative by 1937.<ref>
| |
| {{cite journal
| |
| |last=Emelyanov |first=V. S.
| |
| |year=1971
| |
| |title=Nuclear Energy in the Soviet Union
| |
| |journal=[[Bulletin of the Atomic Scientists]]
| |
| |url=http://books.google.co.jp/books?id=jQsAAAAAMBAJ&pg=PA38
| |
| |volume=27 |issue=9 |pages=39
| |
| |quote=State Institute of Radium, founded in 1922, now known as V. G. Khlopin Radium Institute
| |
| }}</ref><ref>V.G. Khlopin Radium Institute. [http://www.khlopin.ru/english/memorial.php History / Memorial] and [http://www.khlopin.ru/english/hronology.php History / Chronology]. Retrieved 2012-02-25.</ref>
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| == Principle of operation == | | == Xiao Yan has not been golden and closed his eyes == |
| [[File:Cyclotron patent.png|right|thumb|250px|Diagram of cyclotron operation from Lawrence's 1934 patent. The "D" shaped [[electrode]]s are enclosed in a flat [[vacuum chamber]], which is installed in a narrow gap between the two [[magnet#Modelling magnets|poles]] of a large magnet.]]
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| [[File:Cyclotron motion.jpg|thumb|250px|Beam of electrons moving in a circle. Lighting is caused by excitation of gas atoms in a bulb.]]
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| [[File:Zyklotron Prinzipskizze02.svg|thumb|Sketch of a particle being accelerated in a cyclotron, and being ejected through a [[beamline]].]]
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| Cyclotrons accelerate [[charged particle beam]]s using a [[high frequency]] alternating [[voltage]] which is applied between two "D"-shaped electrodes (also called "dees"). An additional static [[magnetic field]] <math>B</math> is applied in perpendicular direction to the electrode plane, enabling particles to re-encounter the accelerating voltage many times at the same phase.<ref name = patent /> To achieve this, the voltage frequency must match the particle's [[cyclotron resonance]] frequency
| | .<br><br>sudden golden light, is [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-4.html カシオ ソーラー電波腕時計] directly illuminate the entire auction are transparent up, some people by surprise, but could not help but habit 'of' closed his eyes.<br><br>Xiao Yan has not been golden and closed his eyes, his eyes shaded by the brim, and firmly locked in the crystal table that Hanyu box, where 一枚 longan size of gold 'color' Dan 'drug 'lie in it being quiet, Dan' medicine 'surface is extremely sleek, two-wire gold' color 'airflow Dan' internal [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-6.html casio 腕時計 説明書] medicine 'indefinite circulation, occasionally suddenly pounced, thin look, gold' color 'airflow actually converge into two tiny gold [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-14.html カシオ 腕時計 ソーラー 電波] 'color' dragon, entangled with [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-13.html カシオ腕時計 メンズ] each other, subtle dragon 'Yin' sound through the air shock, 'swing', slowly spread out, so that was heard by the soul of involuntary Slam in stock Under happen trembling.<br><br>looking at the internal gas condensate Jackie shape that Dan Dan 'medicine', [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-10.html casio 腕時計 データバンク] Xiao Yan could not help trembling body up, |
| :<math>f = \frac{q B}{2\pi m}</math>,
| | 相关的主题文章: |
| with the [[relativistic mass]] ''m'' and its charge ''q''. This frequency is given by equality of [[centripetal force]] and magnetic [[Lorentz force]]. The particles, injected near the centre of the magnetic field, increase their [[kinetic energy]] only when recirculating through the gap between the electrodes; thus they travel outwards along a [[spiral]] path. Their radius will increase until the particles hit a target at the perimeter of the vacuum chamber, or leave the cyclotron using a beam tube, enabling their use e.g. for [[particle therapy]]. Various materials may be used for a target, and the collisions will create secondary particles which may be guided outside of the cyclotron and into instruments for analysis.
| | <ul> |
| | |
| | <li>[http://61.189.52.138/plus/view.php?aid=494591 http://61.189.52.138/plus/view.php?aid=494591]</li> |
| | |
| | <li>[http://contest.japias.jp/tqj2007/90087/cgi-bin/epad/epad.cgi http://contest.japias.jp/tqj2007/90087/cgi-bin/epad/epad.cgi]</li> |
| | |
| | <li>[http://www.robertsparkreunion.com/cgi-bin/guestbook/guestbook.cgi http://www.robertsparkreunion.com/cgi-bin/guestbook/guestbook.cgi]</li> |
| | |
| | </ul> |
|
| |
|
| === Relativistic considerations === | | == at the moment is inevitably accelerated heart beat == |
| In ''[[classical mechanics|the nonrelativistic approximation]]'', the frequency does not depend upon the radius of the particle's orbit, since the particle's mass is constant. As the beam spirals out, its frequency does not decrease, and it must continue to accelerate, as it is travelling a greater distance in the same time period. In contrast to this approximation, as particles approach the [[speed of light]], their [[relativistic mass]] increases, requiring either modifications to the frequency, leading to the ''synchrocyclotron'', or modifications to the magnetic field during the acceleration, which leads to the ''isochronous cyclotron''. The relativistic mass can be rewritten as
| |
| :<math>m = \frac{m_0}{\sqrt{1-\left(\frac{v}{c}\right)^2}} = \frac{m_0}{\sqrt{1-\beta^2}} = \gamma {m_0}</math>,
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| where
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| :<math>m_0</math> is the particle [[rest mass]],
| |
| :<math>\beta = \frac{v}{c}</math> is the relative velocity, and
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| :<math>\gamma=\frac{1}{\sqrt{1-\beta^2}}=\frac{1}{\sqrt{1-\left(\frac{v}{c}\right)^2}}</math> is the [[Lorentz factor]].
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|
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|
| The relativistic cyclotron frequency and angular frequency can be rewritten as
| | Outside the square of fire, 'the' medicine 'Ding, pour did not buy anything else.<br><br>bid deafening roar back in the huge venue 'swing' with that kind of noisy and [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-8.html カシオ レディース 電波ソーラー腕時計] loud, almost to lift the broken ceiling, Chongshangyunxiao.<br><br>in the upcoming auction to the final end when, finally, there is a very real weight of the auction items included, it is a roll [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-2.html 腕時計 casio] of fighting skills, precisely, is a roll of agility type fighting skills.<br><br>'three thousand [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-10.html casio 腕時計 データバンク] thunderous, agility fighting skills, levels, ground-order low.'<br><br>auctioneer gentle voice, and instantly is to let the whole noisy auction was caught up in silence, numerous road crimson eyes, suddenly turned to the stage volume crystal silver 'color' of the reel that, shortness of breath, like a bellows general , whirring sounds.<br><br>'to [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-3.html カシオ 腕時計 電波 ソーラー] order fighting skills' [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-10.html カシオの時計] Xiao Yan took a deep a breath around him, at the moment is inevitably accelerated heart beat, eyes filled |
| :<math>f = \frac{q B}{2\pi \gamma m_0} = \frac{f_0}{\gamma} = {f_0}{\sqrt{1-\beta^2}} = {f_0}{\sqrt{1-\left(\frac{v}{c}\right)^2}}</math>, and | | 相关的主题文章: |
| :<math>\omega = {2\pi f} = \frac{q B}{\gamma m_0} = \frac{\omega_0}{\gamma} = {\omega_0}{\sqrt{1-\beta^2}} = {\omega_0}{\sqrt{1-\left(\frac{v}{c}\right)^2}}</math>, | | <ul> |
| where
| | |
| :<math>f_0</math> would be the cyclotron frequency in classical approximation,
| | <li>[http://www.dhyqw.com/plus/feedback.php?aid=826 http://www.dhyqw.com/plus/feedback.php?aid=826]</li> |
| :<math>\omega_0</math> would be the cyclotron angular frequency in classical approximation.
| | |
| | <li>[http://capswest.com/bbs/viewthread.php?tid=550707&extra= http://capswest.com/bbs/viewthread.php?tid=550707&extra=]</li> |
| | |
| | <li>[http://www.nanluan.com/home.php?mod=space&uid=8269 http://www.nanluan.com/home.php?mod=space&uid=8269]</li> |
| | |
| | </ul> |
|
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|
| The [[gyroradius]] for a particle moving in a static magnetic field is then given by
| | == In this House of the tomb == |
| :<math>r = \frac{v}{\omega} = \frac{\beta c}{\omega} = \frac{\gamma \beta m_0 c}{q B}</math>,
| |
| because
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| :<math>\omega r = v = \beta c</math>
| |
| where v would be the (linear) velocity.
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|
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| === Synchrocyclotron ===
| | In this House of the tomb, this slow speed, but also improved a lot.<br><br>occasional [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-12.html 腕時計 メンズ casio] practice [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-5.html 時計 casio] when awake, Kaoru children would be concerned about is that as the blood pool sculptural motionless Xiao Yan, year, Xiao Yan [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-14.html casio 腕時計 phys] opened his eyes and without the slightest sign of those extremely rich energy is as endless [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-9.html カシオ 腕時計 チタン] general, a steady stream of perfusion among its [http://www.ispsc.edu.ph/nav/japandi/casio-rakuten-14.html カシオ 時計 電波 ソーラー] body, but although the energy was very instill terror, but Xiao Yan breath, but it is stopped at the original point, and not the slightest bit of growth, to this point, Kaoru children to be not feel surprised, because she knows that the last surge of energy, such as infusion into the body when Xiao Yan, had just that moment really broke!<br><br>As Xiao Xuan, this year, he also refused to leave the guard at the outside of the blood pool, looked at Xiao Yan absorbed gradually become clear down the blood pool, a smile on his face is more and more concentrated After all, this is the only thing he can given fiscal Xiao Yan |
| {{Main|Synchrocyclotron}}
| | 相关的主题文章: |
| A synchrocyclotron is a cyclotron in which the frequency of the driving RF electric field is varied to compensate for relativistic effects as the particles' velocity begins to approach the speed of light. This is in contrast to the classical cyclotron, where the frequency was held constant, thus leading to the synchrocyclotron operation frequency being
| | <ul> |
| :<math> f = \frac{f_0}{\gamma} = {f_0}{\sqrt{1-\beta^2}}</math>,
| | |
| where <math>f_0</math> is the classical cyclotron frequency and <math>\beta = \frac{v}{c}</math> again is the relative velocity of the particle beam. The rest mass of an electron is 511 keV/c<sup>2</sup>, so the frequency correction is 1% for a magnetic vacuum tube with a 5.11 keV/c<sup>2</sup> direct current accelerating voltage. The proton mass is nearly two thousand times the electron mass, so the 1% correction energy is about 9 MeV, which is sufficient to induce [[nuclear reactions]].
| | <li>[http://www.liuguohuan.com/plus/feedback.php?aid=5 http://www.liuguohuan.com/plus/feedback.php?aid=5]</li> |
| | | |
| === Isochronous cyclotron ===
| | <li>[http://www.kaoshi886.com/forum.php?mod=viewthread&tid=167959&fromuid=6740 http://www.kaoshi886.com/forum.php?mod=viewthread&tid=167959&fromuid=6740]</li> |
| An alternative to the synchrocyclotron is the ''isochronous cyclotron'', which has a magnetic field that increases with radius, rather than with time. Isochronous cyclotrons are capable of producing much greater beam current than synchrocyclotrons, but require azimuthal variations in the field strength to provide a [[strong focusing]] effect and keep the particles captured in their spiral trajectory. For this reason, an isochronous cyclotron is also called an "AVF (azimuthal varying field) cyclotron".<ref name="sylee014">
| | |
| {{cite book
| | <li>[http://www.anbabl.com/forum.php?mod=viewthread&tid=5517 http://www.anbabl.com/forum.php?mod=viewthread&tid=5517]</li> |
| |last=Lee |first=S.-Y.
| | |
| |year=1999
| | </ul> |
| |title=Accelerator physics
| |
| |url=http://books.google.co.jp/books?id=VTc8Sdld5S8C&pg=PA14
| |
| |page=14
| |
| |publisher=[[World Scientific]]
| |
| |isbn=981-02-3709-X
| |
| }}</ref> This solution for focusing the particle beam was proposed by [[Llewellyn Thomas|L. H. Thomas]] in 1938.<ref name="sylee014"/>
| |
| Recalling the relativistic [[gyroradius]] <math>r = \frac{\gamma m_0 v}{q B}</math> and the relativistic cyclotron frequency <math>f = \frac{f_0}{\gamma}</math>, one can choose <math>B</math> to be proportional to the Lorentz factor, <math>B = \gamma B_0</math>. This results in the relation
| |
| <math>r = \frac{m_0 v}{q B_0}</math> which again only depends on the velocity <math>v</math>, like in the non-relativistic case. Also, the cyclotron frequency is constant in this case.
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| | |
| The transverse de-focusing effect of this radial field gradient is compensated by ridges on the magnet faces which vary the field azimuthally as well. This allows particles to be accelerated continuously, on every period of the [[radio frequency]] (RF), rather than in bursts as in most other accelerator types. This principle that alternating field gradients have a net focusing effect is called [[strong focusing]]. It was obscurely known theoretically long before it was put into practice.<ref name=lhthomas>
| |
| {{Cite journal
| |
| |last1=Thomas |first1=L. H.
| |
| |year=1938
| |
| |title=The Paths of Ions in the Cyclotron I. Orbits in the Magnetic Field
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| |journal=[[Physical Review]]
| |
| |volume=54 |issue=8 |pages=580–588
| |
| |doi=10.1103/PhysRev.54.580
| |
| |bibcode = 1938PhRv...54..580T }}</ref> Examples of isochronous cyclotrons abound; in fact almost all modern cyclotrons use azimuthally-varying fields. The TRIUMF cyclotron mentioned below is the largest with an outer orbit radius of 7.9 metres, extracting protons at up to 510 MeV, which is 3/4 of the speed of light. The PSI cyclotron reaches higher energy but is smaller because of using a higher magnetic field.
| |
| | |
| == Usage ==
| |
| For several decades, cyclotrons were the best source of high-energy beams for [[nuclear physics]] experiments; several cyclotrons are still in use for this type of research. The results enable the calculation of various properties, such as the mean spacing between atoms and the creation of various collision products. Subsequent chemical and particle analysis of the target material may give insight into [[nuclear transmutation]] of the elements used in the target.
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| Cyclotrons can be used in [[particle therapy]] to treat [[cancer]]. Ion beams from cyclotrons can be used, as in [[proton therapy]], to penetrate the body and kill tumors by [[Radiation poisoning|radiation damage]], while minimizing damage to healthy tissue along their path.
| |
| Cyclotron beams can be used to bombard other atoms to produce short-lived [[positron]]-emitting isotopes suitable for [[PET imaging]].
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| More recently cyclotrons currently installed at hospitals for particle therapy have been retrofitted to enable them to produce [[technetium-99]].<ref>
| |
| {{cite news
| |
| |last=Hume |first=M.
| |
| |date=21 February 2012
| |
| |title=In a breakthrough, Canadian researchers develop a new way to produce medical isotopes
| |
| |url=http://www.theglobeandmail.com/news/national/british-columbia/in-a-breakthrough-canadian-researchers-develop-a-new-way-to-produce-medical-isotopes/article2343967
| |
| |newspaper=[[The Globe and Mail]]
| |
| |location=Vancouver
| |
| }}</ref> Technetium-99 is a diagnostic isotope in short supply due to difficulties at Canada's [[Chalk River Laboratories|Chalk River]] facility.
| |
| | |
| == Advantages and limitations ==
| |
| [[File:Cyclotron with glowing beam.jpg|300px|thumb|right|60-inch cyclotron, circa 1939, showing a beam of accelerated ions (likely protons or deuterons) escaping the accelerator and ionizing the surrounding air causing a blue glow]]
| |
| | |
| The cyclotron was an improvement over the [[linear accelerator]]s (''linac''s) that were available when it was invented, being more cost- and space-effective due to the iterated interaction of the particles with the accelerating field. In the 1920s, it was not possible to generate the high power, high-frequency radio waves which are used in modern linacs (generated by [[klystron]]s). As such, impractically long linac structures were required for higher-energy particles. The compactness of the cyclotron reduces other costs as well, such as foundations, radiation shielding, and the enclosing building. Cyclotrons have a single electrical driver, which saves both money and power. Furthermore, cyclotrons are able to produce a continuous stream of particles at the target, so the average power passed from a particle beam into a target is relatively high.
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| | |
| [[File:LawrenceCyclotronMagnet.jpg|thumb|300px|right|The magnet portion of a 27" cyclotron. The grey object is the upper pole piece, routing the magnetic field in two loops through a similar part below. The white canisters held conductive coils to generate the magnetic field. The D electrodes are contained in a vacuum chamber that was inserted in the central field gap.]]
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| | |
| The [[spiral]] path of the cyclotron beam can only "sync up" with klystron-type (constant frequency) voltage sources if the accelerated particles are approximately obeying [[Newton's Laws of Motion]]. If the particles become fast enough that [[Special Relativity|relativistic]] effects become important, the beam becomes out of phase with the oscillating electric field, and cannot receive any additional acceleration. The classical cyclotron is therefore only capable of accelerating particles up to a few percent of the speed of light. To accommodate increased mass the magnetic field may be modified by appropriately shaping the pole pieces as in the [[isochronous cyclotron]]s, operating in a pulsed mode and changing the frequency applied to the dees as in the [[synchrocyclotron]]s, either of which is limited by the diminishing cost effectiveness of making larger machines. Cost limitations have been overcome by employing the more complex [[synchrotron]] or modern, [[klystron]]-driven [[linear accelerator]]s, both of which have the advantage of scalability, offering more power within an improved cost structure as the machines are made larger.
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| | |
| == Notable examples ==
| |
| The world's largest cyclotron is at the [[RIKEN]] laboratory in Japan. Called the SRC, for Superconducting Ring Cyclotron, it has 6 separated superconducting sectors, and is 19 m in diameter and 8 m high. Built to accelerate heavy ions, its maximum magnetic field is 3.8 tesla, yielding a bending ability of 8 tesla-metres. The total weight of the cyclotron is 8,300 tonnes. It has accelerated uranium ions to 345 MeV per atomic mass unit.<ref>
| |
| {{cite conference
| |
| |last=Kamigaito |first=O.
| |
| |coauthors=''et al.''
| |
| |year=2010
| |
| |title=Status of RIBF accelerators RIKEN
| |
| |url=http://accelconf.web.cern.ch/accelconf/Cyclotrons2010/papers/tum2cio01.pdf
| |
| |booktitle=Proceedings of the 19th International Conference on Cyclotrons and their Applications
| |
| }}</ref>
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| | |
| [[TRIUMF]], Canada's national laboratory for nuclear and particle physics, houses one of the world's largest cyclotrons. The 18 m diameter, 4,000 tonne main magnet produces a field of 0.46 [[tesla (unit)|T]] while a 23 MHz 94 [[volt|kV]] electric field is used to accelerate the 300 μA beam. Its large size is partly a result of using negative hydrogen ions rather than protons. The advantage is that extraction is simpler; multi-energy, multi-beams can be extracted by inserting thin carbon stripping foils at appropriate radii. The disadvantage is that the magnetic field is limited: a magnetic field larger than about 0.5 tesla can prematurely strip the loosely-bound second electron. TRIUMF is run by a consortium of eighteen Canadian universities and is located at the [[University of British Columbia]], Vancouver, Canada.
| |
| | |
| == Related technologies ==
| |
| The spiraling of electrons in a cylindrical vacuum chamber within a transverse magnetic field is also employed in the [[magnetron]], a device for producing high frequency radio waves ([[microwaves]]). The [[synchrotron]] moves the particles through a path of constant radius, allowing it to be made as a pipe and so of much larger radius than is practical with the cyclotron and [[synchrocyclotron]]. The larger radius allows the use of numerous magnets, each of which imparts angular momentum and so allows particles of higher velocity (mass) to be kept within the bounds of the evacuated pipe. The magnetic field strength of each of the bending magnets is increased as the particles gain energy in order to keep the bending angle constant.
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| == See also ==
| |
| * [[Cyclotron resonance]]
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| * [[Gyrotron]]
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| * [[Cyclotron radiation]]
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| * [[Particle accelerator]]
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| * [[Synchrotron]]
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| * [[Beamline]]
| |
| * [[Bremsstrahlung]] (radiation)
| |
| * [[Radiation reaction]]
| |
| * [[Fast neutron therapy]]
| |
| * [[Sándor Gaál]]
| |
| | |
| == References ==
| |
| <references /> | |
| | |
| ==Further reading==
| |
| *{{cite book
| |
| |last1=Chao | first1=Alexander W.; et al
| |
| |year=2013
| |
| |title=Handbook of Accelerator Physics and Engineering
| |
| |edition=2nd
| |
| |publisher=World Scientific
| |
| |isbn=978-981-4417-17-4
| |
| |url = http://www.worldscientific.com/worldscibooks/10.1142/8543}}
| |
| *{{Cite journal
| |
| |last1=Feder |first1=T.
| |
| |year=2004
| |
| |title=Building a Cyclotron on a Shoestring
| |
| |journal=[[Physics Today]]
| |
| |volume=57 |issue=11 |pages=30–31
| |
| |doi=10.1063/1.1839371
| |
| |bibcode = 2004PhT....57k..30F }}
| |
| * {{cite web
| |
| |last=Niell |first=F. M.
| |
| |year=2005
| |
| |title=Resonance Mapping and the Cyclotron
| |
| |url=http://www.niell.org/cyc2.html#tpaper
| |
| }}—An experiment done by Fred M. Niell, III his senior year of high school (1994–95) with which he won the overall grand prize in the [[ISEF]].
| |
| * {{Cite web
| |
| |last1=Jardin |first1=X.
| |
| |date=12 Jan 2005
| |
| |title=The Cyclotron Comes to the 'Hood
| |
| |url=http://www.wired.com/politics/law/news/2005/12/69726
| |
| |work=[[Wired (magazine)|Wired]]
| |
| }}—About a neighborhood cyclotron in [[Anchorage, Alaska]].
| |
| | |
| == External links == | |
| {{wiktionary|cyclotron}}
| |
| ;General
| |
| * [http://cyclotrons.net/ Cyclotrons.net]—A forum for builders of small cyclotrons"
| |
| * [http://thecyclotronkids.org/ The Cyclotron Kids Project]—A pair of high school students building their own 2.3 MeV cyclotron for experimentation.
| |
| | |
| ;Facilities
| |
| * [http://user88.lbl.gov/ The 88-Inch Cyclotron] at [[Lawrence Berkeley National Laboratory]]
| |
| * [http://www.nscl.msu.edu/ National Superconducting Cyclotron Laboratory] of the [[Michigan State University]]—Home of coupled K500 and K1200 cyclotrons; the K500, the first superconducting cyclotron, and the K1200, formerly the most powerful in the world.
| |
| * [http://www.physics.rutgers.edu/cyclotron/ Rutgers Cyclotron]—Students at [[Rutgers University]] built a 12-inch 1 MeV cyclotron as an undergraduate project, which is now used for a senior-level undergraduate and a graduate lab course.
| |
| * [http://www.rarf.riken.jp/Eng/ RIKEN Nishina Center for Accelerator-based Science]—Home of the most powerful cyclotron in the world.
| |
| | |
| [[Category:Accelerator physics]]
| |
| [[Category:American inventions]]
| |
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Xiao Yan has not been golden and closed his eyes
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In this House of the tomb
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