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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 1 Scientific Program and Requirements What type of Spectrometer is MACS? Which experiments is it good for? Specifications to MACS-imize science output
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 2 Goals in Neutron Spectroscopy A central tool in condensed matter physics –Unique information about dynamic correlations –Model independent access to interaction strength –Access microscopic structure of dynamic systems Limited scope on current instruments –Need cm 3 sized crystals –Need weeks of beam time –Need to be neutron scattering expert Increased sensitivity will broaden impact –Smaller samples earlier in new materials cycle –Impact in a wider range of science –Parametric studies –Comprehensive surveys for tests of theory
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 3 Q and E resolved spectroscopy requires To probe solids with low energy scales ─ Reduce E by cooling neutrons ─ Increase angular divergence to match Q Energy scale J varies more than length scale a
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 4 Comparing TOF to TAS Large detector solid angle is possible E-scan without moving parts Can use spallation source peak flux Large detector solid angle is possible E-scan without moving parts Can use spallation source peak flux Can focus neutrons with Bragg optics Freely select range of energy transfer Can use reactor CW flux Can focus neutrons with Bragg optics Freely select range of energy transfer Can use reactor CW flux TAS like TOF like
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 5 Holes in a Quantum Spin Liquid Y3+Y3+ Ni O AFMFM Ca 2+ Xu, Broholm et al. Science (2000)
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 6 TOF Data from MAPS/ISISTAS Data from NIST
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 7 Elements of Scientific Program for MACS Expand the scope for Inelastic scattering from crystals: –0.5 mm 3 samples –Impurities at the 1% level –Complete surveys to reveal spin-wave-conduction electron interactions –Extreme environments: pressure and fields to tune correlated systems Probing short range order –Solid ionic conductors, spin glasses, quasi-crystals, ferroelectrics, charge and spin polarons, quantum magnets, frustrated magnets. Excitations in artificially structured solids –Spin waves in magnetic super-lattices –Magnetic fluctuations in nano-structured materials Weak broken symmetry phases –Incommensurate charge, lattice, and spin order in correlated electron systems Matsunada et al. (2002) Saxena et al. (2000) Lee et al. (2002) Schreyer et al (2000)
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 8 Overall Requirements for MACS Maximize sensitivity –Maximize flux on sample E≈0.2 meV, Q≈0.1 Å -1 –Maximize detection solid angle at fixed E f –Minimize background Optimize performance for users –Robust and reliable soft- and hard-ware –Standardized dynamic “finger prints” of sample –Versatility cannot compromise basic mode –Streamline experimental process Start Commissioning in 3 years from now
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 9 Top Level Specification
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 10 Strategy and Components for Incident Beam line Goals for incident beam line Active beam line components Projected Performance
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 11 Goals for Incident beam line Maximize monochromatic ( E=0.2 meV) flux on sample Minimize fast neutrons leaving enclosure Decouple energy and wave vector resolution Rapid and accurate setting of E I Robust design, no need to realign.
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 12 Increase brightness at fixed neutron production MACS Beam New cold source installed in 2002 has increased flux by 1.8
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 13 Symmetric horizontal focusing Sample Source Monochromator Focal point for monochromator -distribution is on its bisector (symmetric reflection geometry) Focal point for monochromator -distribution is on its bisector (symmetric reflection geometry)
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 14 Space constraints require L 0 ≈3L 1 L 0 =5400 mm L 1 =1475 mm
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 15 Solutions to asymmetry problem Create virtual source point with super-mirror guide + Can close fast neutron aperture –E-dependent angular divergence limited to m c ≈ 2 0 –Loss of efficiency when guide cannot get close to source Use focusing monochromator for L 0 ≠L 1 + Can use full solid angle view of source at all E + Can vary energy and angular distribution independently –Greater aperture for fast neutrons
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Asymmetric horizontal focusing Focal point for monochromator -distribution is not on bisector (Miscut geometry) Focal point for monochromator -distribution is not on bisector (Miscut geometry) Sample Source Monochromator
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 17 Rotate full device to satisfy tangency condition Rotate individual blades to achieve focusing Neutrons that go through the cracks do so to satisfy Liouville Top view
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 18 Other Venetian blind monochromator configurations Source Sample resolution function can be manipulated through choice of tangent to Rowland circle ─ Good energy resolution ─ Coarser transverse Q-resolution ─ coarse energy resolution ─ good transverse Q-resolution other tradeoffs with values in between
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 19 Two Radial Collimators that Control energy resolution Two Radial Collimators that Control energy resolution Translating MACS Monochromator Variable aperture that controls Q-resolution Cooled Be, PG, and Al 2 O 3 Beam Shutter Overview of MACS Design by T. D. Pike and C. Brocker 21 channel crystal analyzer super mirror guide channel
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 20 Incident beam filters PG filter (8 cm) –Order suppression at 13.7 meV and 14.7 meV –Fast neutron suppression E<15 meV Be filter (10 cm) –Order suppression E<5 meV –Fast neutron suppression E<5 meV Sapphire filter (8 cm) –Fast neutron suppression 15<E<20 meV
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40’-60’ 40’ 60’ MACS –a New High Intensity Cold Neutron Spectrometer at NIST Radial Collimator defines source size Y. Qiu (2002)
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 22 Collimators in series LALA A B LALA A B
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 23 Y. Qiu (2002)
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 24 5 cm f=4 m 1428 cm 2 PG Smee et al. (2002)
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 25 Flux versus mosaic at fixed 0.2 meV energy resolution
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 26 Guide increases angular size of sample
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 27 Qiu and Broholm (2002) Monte Carlo Simulation of MACS Y. Qiu (2002)
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 28 Strategy and Components for Detection System Goals for Detection System Active Components in detector system Modes of Operation
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 29 Goals for Detection System Maximize solid angle at fixed E F Minimize background count rate Variable E and Q resolution Alignment once a year at most Maximize rejection ratio for E I neutrons Energy integrating “two-axis” detectors operating simultaneously
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 30 Twenty-one Channel Analyzer System Design by C. Brocker
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BeO filter Be filter PG filter Collimator 1 8 o vertically focusing Analyzer crystals 8 o vertically focusing Analyzer crystals “TAS” detector Energy integrating Detector Energy integrating Detector Design by C. Brocker Collimator 2
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 32 Neutrons detected left and right Length of principal axes of projection of resolution function on scattering plane E F =3.7 meV 60’-60’-20’-20’ Left at analyzer Right at analyzer
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 33 Elastic Scattering left and right Left at analyzer Right at analyzer E F =3.7 meV 60’-60’-20’-20’
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 34 Double analyzer is “compound lens” efficient vertical focusing Fixed vertical focusing of analyzers
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 35 Constant energy transfer slice kiki kfkf Q
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MACS –a New High Intensity Cold Neutron Spectrometer at NIST September 24, 2002Collin L. Broholm Timothy D. Pike 36 Assembling slices to probe Q-E volume 2 meV 1 meV 0 meV
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Powder sample Q-E map –8 x 30 pts x 0.2 min. = 1:00 Single crystal constant-E slice –8 x 100 pts x 0.5 min. = 6:40 Single crystal complete Q-E Volume –8 x 100 x 10 pts x 0.5 min.= 3 days CuHpCl SCGO MACS –a New High Intensity Cold Neutron Spectrometer at NIST
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