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| Company | Nu Instruments | Nu Instruments | Nu Instruments | Nu Instruments | Nu Instruments |
| Item | Plasma 3 MC-ICP-MS | Attom ES ICP-MS | Nu Plasma 1700 HR-MC-ICP-MS | Nu Sapphire XD MC-ICP-MS/MS | Vitesse ICP-MS |
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| Description | Plasma 3 is a third-generation MC-ICP-MS using a double-focusing forward Nier-Johnson geometry (electrostatic analyser followed by laminated magnet) at ground potential. It features a variable-dispersion Zoom Optics system for instantaneous switching between collector configurations and supports Plasma 3 is a third-generation MC-ICP-MS using a double-focusing forward Nier-Johnson geometry (electrostatic analyser followed by laminated magnet) at ground potential. It features a variable-dispersion Zoom Optics system for instantaneous switching between collector configurations and supports simultaneous measurement of isotopes from lithium to the actinide series. The collector array accommodates 16 Faraday cups and up to 6 ion-counting detectors (SEM or Daly); abundance sensitivity is <2 ppm at –1 amu relative to 238U with the standard deceleration filter.... Read More | The Attom ES is a double-focusing, single-collector HR-ICP-MS with the analyser and sample introduction system at ground potential. It uses a laminated magnet with FastScan electrostatic deflector optics to cover up to 40% of a given mass range without changing the magnetic field. A unique patented The Attom ES is a double-focusing, single-collector HR-ICP-MS with the analyser and sample introduction system at ground potential. It uses a laminated magnet with FastScan electrostatic deflector optics to cover up to 40% of a given mass range without changing the magnetic field. A unique patented detector attenuation system extends the pulse-counting multiplier to 9 orders of magnitude dynamic range; an optional Faraday detector extends this to 12 orders.... Read More | Nu Plasma 1700 is a large-geometry, double-focusing HR-MC-ICP-MS with ~1,700 mm mass dispersion. The large geometry raises the base resolving power to >800 (10% valley definition) at full sensitivity, and edge resolving power reaches >30,000 (5–95% edge definition) by narrowing the continuously Nu Plasma 1700 is a large-geometry, double-focusing HR-MC-ICP-MS with ~1,700 mm mass dispersion. The large geometry raises the base resolving power to >800 (10% valley definition) at full sensitivity, and edge resolving power reaches >30,000 (5–95% edge definition) by narrowing the continuously adjustable source entrance slit. Each of the 16 Faraday detectors and up to 5 ion-counting detectors carries an independently adjustable high-resolution collector slit, enabling simultaneous true high-resolution operation across the entire array.... Read More | Sapphire XD is a dual-path MC-ICP-MS/MS that extends the Sapphire platform with a fully retractable Double Wien mass filter (permanent magnets + lens field arrays) and an Xtra Dispersion (XD) fixed collector array. The mass filter can be inserted prior to the hexapole collision/reaction cell for MS/Sapphire XD is a dual-path MC-ICP-MS/MS that extends the Sapphire platform with a fully retractable Double Wien mass filter (permanent magnets + lens field arrays) and an Xtra Dispersion (XD) fixed collector array. The mass filter can be inserted prior to the hexapole collision/reaction cell for MS/MS operation (e.g. Rb-SrF mass shifting) or used alone to suppress space-charge effects. The XD collector provides 25% natural dispersion and accommodates up to 28 Faraday cups and 6 ion-counting detectors.... Read More | The Vitesse is a Time-of-Flight (TOF) ICP-MS designed for simultaneous full-spectrum acquisition at acquisition rates of 33 kHz (full mass range) up to 160 kHz (reduced mass range via over-pulsing). It incorporates a segmented hexapole reaction cell for interference removal and a patented physical The Vitesse is a Time-of-Flight (TOF) ICP-MS designed for simultaneous full-spectrum acquisition at acquisition rates of 33 kHz (full mass range) up to 160 kHz (reduced mass range via over-pulsing). It incorporates a segmented hexapole reaction cell for interference removal and a patented physical ion beam attenuator. An optional full-sized quadrupole pre-cell (QCT configuration) provides additional selectivity for reaction chemistry.... Read More |
| Optical System | Double-focusing forward Nier-Johnson geometry (electrostatic analyser + laminated magnet); ground-potential analyser; variable-dispersion Zoom Optics; Enhanced Sensitivity Interface (ES) as standard; optional Enhanced Abundance Transfer Optics (EATO, UK Patent GB 2545670); abundance sensitivity <2 ppm at –1 amu relative to 238U (standard deceleration filter), <0.5 ppm post-filter, <1 ppm with EATO pre-filter, <0.05 ppm with EATO post-filter | Double-focusing magnetic sector (electrostatic analyser + laminated magnet); forward Nier-Johnson geometry; ground-potential analyser; FastScan electrostatic deflector optics covering up to 40% of mass range; three fixed-slit resolution modes: low (~300 M/?M), medium (~4,000 M/?M), high (>10,000 M/?M) | Double-focusing large-geometry MC-ICP-MS; ~1,700 mm mass dispersion; continuously adjustable source entrance slit; independently adjustable high-resolution collector slit per detector; base resolving power >800 (10% valley); peak-flat resolving power >5,000; edge resolving power >30,000 (5–95% edge); Enhanced Sensitivity Interface as standard; variable-dispersion Zoom Optics; optional EATO; optional hexapole collision/reaction cell (Sapphire 1700 variant) with dual-path transfer optics | Double-focusing magnetic sector; dual-path transfer optics (high-energy path and low-energy path with hexapole CRC); fully retractable Double Wien mass filter (permanent magnets + lens field arrays); variable-dispersion Zoom Optics; Enhanced Sensitivity Interface as standard; up to 4 mass-flow-controlled reaction gas inlets; software-selectable standard, medium, and high-resolution modes | Time-of-Flight (TOF) mass spectrometer with segmented hexapole reaction cell; Bradbury-Nielsen gate for mass range selection; optional full-sized quadrupole pre-cell (QCT option); patented ion beam attenuator |
| Mass Analyzer | Multi-collector double-focusing magnetic sector; 16 Faraday cups + up to 6 ion-counting detectors (SEM or Daly); mass range lithium to actinide series | Single-collector double-focusing magnetic sector; mass range 1–260 u | Multi-collector double-focusing magnetic sector; 16 Faraday cups + up to 5 ion-counting detectors (SEM or Daly); mass range lithium to actinide series | Multi-collector double-focusing magnetic sector with MS/MS capability; XD collector array with up to 28 Faraday cups + up to 6 ion-counting detectors (SEM or Daly); mass range Li to U and beyond; 25% natural dispersion; dynamic range 0–75 Gcps (SEM to 10^10 O pre-amplifier) | Time-of-Flight (TOF); simultaneous full-spectrum acquisition; acquisition rate 33 kHz (full mass range) to 160 kHz (reduced mass range); spectrum readout time as low as 80 µs |
| Dynamic Range | Inquire | 9 orders of magnitude (pulse-counting multiplier with patented beam attenuation); 12 orders of magnitude with optional Faraday detector | Inquire | 0–75 Gcps (0–1200 V) from SEM to 10^10 O resistor pre-amplifier | 10 orders of magnitude (patented ion beam attenuation system combined with MagneTOF detector) |
| Applications | Earth sciences, geochronology, geochemistry, environmental science, nuclear research, archaeology, forensics, biochemistry, biomedical science | Laser ablation imaging, nanoparticle analysis, isotope ratio measurements, trace element quantification, nuclear analysis, geochemistry, environmental monitoring | High-resolution isotope ratio analysis, non-traditional stable isotopes (Mg, Si, S, K, Ca, Ti, V, Cr, Fe, Ni, Se), geochronology, geochemistry, cosmochemistry, nuclear research, life sciences | Geochronology (Rb-Sr, Lu-Hf, Re-Os, U-Th-Pb), stable isotope analysis (Mg, Si, S, K, Ca, Ti, V, Cr, Fe, Ni, Se), laser ablation in situ dating, nuclear safeguarding, environmental monitoring, forensics, life sciences | Laser ablation elemental imaging, nanoparticle analysis, single-cell analysis, single-particle ICP-MS, nuclear forensics, geochemistry, environmental monitoring |
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