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Low-energy particle detection atthe Heidelberg Cryogenic Storage Ring

Claude Krantz *

Max Planck Institute for Nuclear Physics

* now: Marburg Ion-Beam Therapy Centre

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

1 – The Cryogenic Storage Ring

2 – Particle detection in the CSR

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

Atomic and Molecular Physics with Storage Rings

Aq+e.g.

Aq+ + H2 (g)

→ A(q-1)+ + H2

+

I

R

n

σcap∼R

I n Lv

L

Ion Storage Ring

* Recycle ions (higher I)* Increase ToF (µs to s) e.g. allow metastables to decay

v

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

Atomic and Molecular Physics with Storage Rings

I

R

nL

Ion Storage Ring + Electron Cooler* Recycle ions (higher I)* Increase ToF (µs to s) e.g. allow metastables to decay* Decrease ion beam spread in phase space

ve = v

ion

e

e.g.

Aq+ + H2 (g)

→ A(q-1)+ + H2

+

Aq+

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

Atomic and Molecular Physics with Storage Rings

AB+

I

R

nL

ve ≠ v

ion

e

e.g.

AB+ + e → A + B + γ

σrec∼R

vcoll I n L

vcoll

= |ve - v

ion|

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

Atomic and Molecular Physics with Storage Rings

R

n

e

vcoll

= |ve - v

ion|

Sav

in, A

pJ S

uppl

. Ser

. 147

(20

03)

Fe21+ + e → Fe20+ + γ

Storage Ring TSR (decom. end 2012)

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

Atomic and Molecular Physics with Storage Rings

Gas-phase chemistry inISM driven by H

3+:

H3

+ + e → H + H + H

Formation of neutral molecules H

3O+ + e → H

2O** + H Buhr, PRL 105 (2010)

HCNH+ + e → HCN/CNH** + H Mendes, ApJ Lett. 746 (2012)

TSR

e.g. Petrignani, PRA 83 (2011); Kreckel, PRA 82 (2010)

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

Gas-phase chemistry inISM driven by H

3+:

H3

+ + e → H + H + H

Formation of neutral molecules H

3O+ + e → H

2O** + H Buhr, PRL 105 (2010)

HCNH+ + e → HCN/CNH** + H Mendes, ApJ Lett. 746 (2012)

TSR

e.g. Petrignani, PRA 83 (2011); Kreckel, PRA 82 (2010)

Rigidity limit

low q, high m

→ low velocity→ lots of res. gas scattering (background!)→ short storage time (no relaxation!)

+ IR radiation background (rot. trans.!)

Atomic and Molecular Physics with Storage Rings

0.01

c

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

The Cryogenic Storage Ring

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

The Cryogenic Storage Ring

Beamline at ~ TLHe

Fully electrostatic

Low energy (< 300 keV/q)

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

The Cryogenic Storage Ring

Beamline at ~ TLHe

T ~ 6 K , ng < 140 cm-3 , t

stor >> 1000 s

Fully electrostatic

Low energy (< 300 keV/q)

CH+

O'C

onno

r et

al.,

PR

L 1

16 (

2016

)

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

The CSR

Cryogenics

XHV vacuum chamber 6 K, ~10-14 mbar (rte)

2 radiation shields ~30 and 50 K

Multi-Layer Insulation

Isolation vacuum chamber (10-6 mbar)~ 1 m

Quad

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

The CSR

Electrostatic beam optics4 periods 4 identical “corner” sectors

4 x 2 quadrupole doublets

4 x 2 6°-deflector electrodes (±20 kV)

4 x 2 39°-deflector electrodes (±20 kV)

4 free straight sections (2.4 m, experiments)

quadrupoledoublet

6° deflector

39° deflector

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

The CSR

quadrupoledoublet

6° deflector

39° deflector

Possible detector positions

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

Requirements for a CSR detector ...

1) Particles are slow!

E < 300 keV/q , typically q = 1 , m >> 1 → 0.1 … 10 keV/u

→ Surface electron emission/detection

2) Engineering challenges:

CSR cools to TLHe

… and is baked to 250°C.

Target vacuum at RT: ~ 10-11 mbar.

Only non-magnetic materials allowed.

Needs to be a robust solution.

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

Requirements for a CSR detector ...K

uehn

el, P

roc.

of

EPA

C 2

008

Exp. rise at low T→ Risk of detector saturation

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

The COld Movable PArticle CounTer (COMPACT)

|Δ( qm )

rel|⩽1

beams from experiment

~ 30 cm

Movable, narrow entrance window

Spr

uck,

Rev

. Sci

. Ins

trum

. 86,

023

303

(201

5)

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

The COMPACT Detector

heavyparticles(~ keV/u)

ee

e

“Daly” electrode

EDR MCP

MCP heating (res. wire)(~ 200 mW, optional)

R300K

~ 56 MΩ

4 HV electrodes:“Daly” (–400 V)MCP-in (+800 V)MCP-out (+2700 V)Anode (+3000 V)

+ MCP Heating (+)

→ Needs 5 el. potentials (+ gnd)

Secondary electron emission +

multiplication

20 mm

200 mW

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

The COMPACT Detector

HV “ribbon cable”

hardened CuBe2strips (flex. 300 K … 4 K)

PEEK separator(> 3 kV)

Thread drive

Actuator

Rot. feedthrough (spec. 77 K)+ thread drive (SS 316L screw / PEEK nut)+ therm. decoupling ...

Spr

uck,

PhD

, Uni

v. G

ieße

n (2

015)

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

The COMPACT DetectorXHV components: (~ 10-11 mbar at RT)

Bakeable to 250°C / non-mag. / movable at 6 K.

Spr

uck,

Rev

. Sci

. Ins

trum

. 86,

023

303

(201

5)

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

The COMPACT Detector

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

Room-temperature commissioning (2014)

The CSR in March 2014

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

Room-temperature commissioning (2014)

17 March 2014 (15:33):First stored beam in CSR

40Ar+ (1.25 keV/u)

Ar+ + X → Ar + X+

19 March 2014: First beam at COMPACT

At 300 K:Count rates upto 106 s-1

so far, so good ...

(1.25 keV/u)

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

Cryogenic commissioning (2015): CSR at ~ 6 K

Krantz, in prep. (2016)

260 K

110 K

~ 10 K

Spr

uck,

PhD

, Uni

v. G

ieße

n (2

015)

Ar+ + X → Ar + X+

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

Cryogenic commissioning (2015): CSR at ~ 6 K

Cou

nts

(arb

. uni

ts)

Krantz, in prep. (2016)

UV photons Ar (1.5 keV/u)

For heavy particles @ 6 K (~ 1 keV/u)no MCP heating necessary up to ~ 1000 s-1

Kra

ntz,

in p

rep.

(20

16)

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

CSR at ~ 6 K: First Atomic-Physics

fromexperiment

Negati

veIo

ns

OPO Laser

(300 – 2000 nm)

Laser

Photo-detachment COMPACT

@ 6 K

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

CSR at ~ 6 K: First Atomic-Physics

OH- + γ → OH + eLaser ON

Laser ON Laser

ON

Laser OFF

Laser OFF

v. H

ahn

et a

l., R

ev. S

ci. I

nstr

um.,

in p

ress

0 100 200 300 400 500 6000.1

1

10

100

1000

Storage time (s)

Cou

nt r

ate

(s-1)

Kra

ntz,

in p

rep.

(20

16)

Beam dumped

Low background level~ 0.3 s-1 (at all T)

At 6 K (no MCP heating):Dynamic range ~ 3000 x= 8 1/e lifetimes

Even more with MCP heating?(to be tested ...)

(6 K, 0.5 keV/u)

(6 K, 3.5 keV/u)

DC experiments at 6 K→ stay below 1000 s-1

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

Outlook: More COMPACT detectors

ECool

colli

near

neut

ral-

atom

targ

et

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

NICE “Neutral Imaging in Cryogenic Environment”

... more CSR detectors

fromECool

Becker, PhD, Univ. Heidelberg (2016)

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

... more CSR detectors

fromECool

MOCCA: 4000-pixel (microcalorimetric)energy resolving detector (SQUID-based)

Gam

er e

t. al

, J. L

ow. T

emp.

Phy

s (2

016)

Precursor Experiments doneDevelopment ongoing.

Novotný et al. J. Appl. Phys. 118 (2015)

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

That's all folks ...

We have a detector for the CSR that ...

… detects low-energy heavy productswith high efficiency at ~T

LHe.

… is movable in the beamline at 6 K.

… is XHV bakeable and non-magnetic.

… is an affordable and robust solution.

More detector development at CSRis ongoing ...

GSI, 9th May 2016Claude Krantz - Cryring@ESR Detector Workshop

Thank You!

Klaus Blaum

Robert von Hahn

Patrick Wilhelm

Sebastian George

Christian Meyer

Aodh O'Connor

Stephen Vogel

Roland Repnow

Manfred Grieser

Andreas Wolf

Holger Kreckel

Oldřich Novotný

Florian Grussie

Arno Becker

( C. K. )

Max Planck Institute for Nuclear Physics,Heidelberg

Columbia University,New York

Daniel W. Savin

Justus-Liebig University,Gießen

Kaija Spruck

Stefan Schippers

Université Catholique,

Louvain-la-Neuve

Xavier Urbain

University of Heidelberg

Andreas Fleischmann

Christian Enss

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