2013
DOI: 10.1063/1.4824798
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Highly bent (110) Ge crystals for efficient steering of ultrarelativistic beams

Abstract: Thanks to the effective electrostatic potential generated by the ordered atomic structure, bent crystals can efficiently deflect ultra relativistic charged beams by means of planar and axial channeling phenomena as well as of the recently discovered volume reflection effect. Most of the experimental knowledge about these phenomena has been gathered with Si crystals, but it has been recently demonstrated that the steering performance can be improved by using high quality Ge materials which have a larger atomic … Show more

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Cited by 11 publications
(22 citation statements)
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“…Indeed, since a Ge crystal provides a stronger potential, one expects an increase in the angular acceptance for channeling and an enhancement of e.m. radiation emission. Currently, a few channeling experiments have been performed with bent Ge, only with positively charged particles and only in the hundreds GeV energy range [27,28,29,30], while with electrons and at lower energies there are no data in literature due to the technical difficulties of fabrication of an ultra-short bent Ge crystal.…”
Section: Introductionmentioning
confidence: 99%
“…Indeed, since a Ge crystal provides a stronger potential, one expects an increase in the angular acceptance for channeling and an enhancement of e.m. radiation emission. Currently, a few channeling experiments have been performed with bent Ge, only with positively charged particles and only in the hundreds GeV energy range [27,28,29,30], while with electrons and at lower energies there are no data in literature due to the technical difficulties of fabrication of an ultra-short bent Ge crystal.…”
Section: Introductionmentioning
confidence: 99%
“…Figure 3 shows the distribution of particle deflection angles after the interaction with the crystals for channeling and volume reflection orientations. For the channeling case, a fraction of 3% AE 1% of the beam is deflected by the nominal bending angle (190 AE 3 μrad), in contrast to what was obtainable with a Si (66%) [11] or a Ge (72%) [30] strip of the same geometrical properties. The deflection efficiency of channeling and volume reflection and the statistical error are calculated according to Ref.…”
mentioning
confidence: 54%
“…The concentration of dislocations is traditionally referred to the length of dislocation lines by unit volume, i.e., for randomly distributed dislocations, the areal density of dislocations intercepted by a random plane. Germanium (Ge), the natural alternative to Si, demonstrated an ability to overcome the performances of Si owing to its deeper potential well [29][30][31]. However, particular care is needed in the selection of starting material in terms of defect concentration.…”
mentioning
confidence: 99%
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“…In order to increase the efficiency of deflection, material with higher Z were also tested. As an example, Ge crystals with a sufficiently high crystalline perfection demonstrated to overcome the performances of Si crystals under the same condition [8,9]. Recently, a new collimation scheme based on self-bent graded Si x Ge 1Àx crystal was proposed, by exploiting the volume reflection effect [10].…”
Section: Introductionmentioning
confidence: 98%