TiZrV nonevaporable getter (NEG) coated vacuum chambers is a new vacuum technology which is already used in many particle accelerators worldwide. This coating is also of interest for heavy-ion accelerator vacuum chambers. Heavy-ion desorption yields from an activated as well as a CO saturated NEG coated tube have been measured with 5MeVuAr8+ beam. The sticking probability of the NEG film was obtained by using the partial pressure ratios on two sides of the NEG coated tube. These ratios were compared to results of modeling of the experimental setup with test particle Monte Carlo and angular coefficient methods. The partial pressures inside the saturated NEG coated tube bombarded with heavy ions were up to 20 times larger than those inside the activated one. However, the partial pressure of methane remained the same. The value of the total desorption yield from the activated NEG coated tube is 2600molecules/ion. The desorption yields after saturation for CH4, H2, and CO2 were found to be very close to the yields measured after the activation, while CO increased by up to a factor of 5. The total desorption yield for the saturated tube is up to 7000molecules/ion. The large value of the desorption yield of the activated NEG coated tube, an order of magnitude higher than the desorption yield from a stainless steel tube at normal incident angle, could be explained by the grazing incident angle.

1.
FAIR Baseline Technical Report, September
2006
(http://www.gsi.de/fair/reports/btr.html).
2.
C.
Benvenuti
,
P.
Chiggiato
,
F.
Cicoira
, and
Y.
L’Aminot
,
J. Vac. Sci. Technol. A
16
,
148
(
1998
).
3.
C.
Benvenuti
,
J. M.
Cazeneuve
,
P.
Chiggiato
,
F.
Cicoira
,
A.
Escudeiro Santana
,
V.
Johanek
,
V.
Rouzinov
, and
J.
Fraxedas
,
Vacuum
53
,
219
(
1999
).
4.
C.
Benvenuti
,
P.
Chiggiato
,
P.
Costa Pinto
,
A.
Prodromides
, and
V.
Ruzinov
,
Vacuum
71
,
307
(
2003
).
5.
M.
Hahn
,
R.
Kersevan
, and
I.
Parat
,
Proceedings of the EPAC’06
,
Edinburgh, Scotland
,
2006
(http://accelconf.web.cern.ch/AccelConf/e06/PAPERS/TUPCH172.pdf).
6.
7.
A.
Franz
,
Nucl. Instrum. Methods Phys. Res. A
566
,
54
(
2006
).
9.
C.
Benvenuti
,
P.
Chiggiato
,
R.
Kersevan
,
E.
Mahner
,
O.
Malyshev
,
V.
Ruzinov
, and
Y.
Saito
,
45th IUVSTA Workshop on NEG Coatings for Particle Accelerators and Vacuum Systems
, 5–8 April
2006
,
Catania, Italy
(http://www.aiv.it/neg_documenti/Summary.ppt).
10.
P.
Chiggiato
and
R.
Kersevan
,
Vacuum
60
,
67
(
2001
).
11.
V. V.
Anashin
,
I. R.
Collins
,
R. V.
Dostovalov
,
N. V.
Fedorov
,
A. A.
Krasnov
,
O. B.
Malyshev
, and
V. L.
Ruzinov
,
Vacuum
75
,
155
(
2004
).
12.
O. B.
Malyshev
,
V. V.
Anashin
,
R. V.
Dostovalov
,
N. V.
Fedorov
,
A. A.
Krasnov
,
I. R.
Collins
, and
V. L.
Ruzinov
,
J. Vac. Sci. Technol. A
23
,
570
(
2005
).
13.
C.
Benvenuti
,
P.
Chiggiato
,
F.
Cicoira
, and
V.
Ruzinov
,
Vacuum
50
,
57
(
1998
).
14.
E.
Mahner
,
J.
Hansen
,
D.
Küchler
,
M.
Malabaila
, and
M.
Taborelli
,
Phys. Rev. ST Accel. Beams
8
,
053201
(
2005
).
15.
H.
Huang
,
W.
Fischer
,
P.
He
,
H.-C.
Hseuh
,
U.
Iriso
,
V.
Ptitsyn
,
D.
Trbojevic
,
J.
Wei
, and
S. Y.
Zhang
,
Proceedings of the EPAC’06
,
Edinburgh, Scotland
,
2006
(http://accelconf.web.cern.ch/AccelConf/e06/PAPERS/MOPLS021.pdf).
16.
E.
Mustafin
 et al,
Nucl. Instrum. Methods Phys. Res. A
510
,
199
(
2003
).
17.
E.
Hedlund
 et al,
Nucl. Instrum. Methods Phys. Res. A
586
,
377
(
2008
).
18.
R.
Kersevan
, MOLFLOW User’s Guide, available from the author (roberto.kersevan@esrf.fr).
19.
G. L.
Saksaganskii
,
Molecular Flow in Complex Vacuum Systems
(
Gordon and Breach
,
New York
,
1988
).
20.
O. B.
Malyshev
,
J. Vac. Sci. Technol. A
26
,
68
(
2008
).
21.
C.
Benvenuti
,
A.
Escudeiro Santana
, and
V.
Ruzinov
,
Vacuum
60
,
279
(
2001
).
22.
E.
Hedlund
 et al,
Nucl. Instrum. Methods Phys. Res. A
(in press).
You do not currently have access to this content.