Neptune Plus™ High Resolution Multicollector ICP-MS
Meet the ever-expanding application demands of earth sciences, nuclear sciences and other fields requiring high-precision isotope ratio measurements with the Thermo Scientific™ Neptune Plus™ high resolution multicollector ICP-MS system. The Neptune Plus system combines field-proven technology with the latest innovations. This powerful double-focusing mass spectrometer, with high mass resolution, variable multicollectors, and multi ion counting capability, offers ground-breaking sensitivity, high dynamic ranges, unsurpassed linearity, and robust stability.
Jet Interface for Ultimate Sensitivity
- The jet interface increases sensitivity 10-20 times across the entire mass range in desolvation mode.
High-Resolution Double-Focusing Analyzer
- ICP interface improves resolution, reducing the initial kinetic energy spread by capacitively decoupling the plasma from the load coil
- Double-focusing mass analyzer focuses both ion energy and angular divergence for superior mass resolution
- Independent source and detector slit settings enhance mass resolution by separating molecular interferences from elemental peaks
- Wide detector slit in all resolutions guarantees the widest peak flatness at high resolving powers, a prerequisite for highly precise and accurate isotope ratio analyses
- Low, medium and high resolution settings can be selected with a single mouse click
Fully Flexible Detection System
- High-performance Faraday cups are laser machined from solid carbon to guarantee uniform response, high linearity, low noise, and long lifetimes; they completely eliminate the need for cup factors
- Tera-Ohm feedback resistors improve signal-to-noise ratios two to three fold
- Up to 10 current amplifiers with independent gains can be installed simultaneously
- Software control of the amplifier/Faraday cup connections allows amplifier configuration to be configured to the needs of each experiment and its required precision
- Available retarding potential quadrupole (RPQ) lenses improve abundance sensitivity by one order of magnitude to <500 ppb
- Multi-ion counting (MIC) arrays of discrete-dynode electron multipliers provide ultimate detection efficiency for small sample amounts
- Up to eight discrete dynode electron multipliers can be installed at one time
Sophisticated Software Control
- Software allows a fully automated plasma-ignition sequence
- Cup configuration editor is used to define cup configurations
- Method editor enables the user to set up measurement procedures, including static, multidynamic, and fast single-collector peak jumping strategies
- On-line and off-line data evaluation packages are available, including statistical capabilities and display of the results in spreadsheet or graphical form
- Users have access to all raw data and can monitor the results online during the analysis. The software allows data to be evaluated and flexibly exported; ideal for laser ablation applications.
- Sequence editor provides automatic, unattended acquisition and evaluation of samples including sample/standard bracketing and blank subtraction
- Triggering of, or triggering from coupled devices, e.g. from a laser system, is fully supported
- Automated report generation of analytical results is included
- Scripting based on the C programming language allows modification of supplied procedures.
- For GC and HPLC applications, additional software package dedicated to the evaluation of transient signals are available
- See more at: http://www.thermoscientific.com/en/product/neptune-plus-high-performance-multicollector-icp-ms.html#sthash.BIE47Miq.dpuf
Jet Interface for Ultimate Sensitivity
- The jet interface increases sensitivity 10-20 times across the entire mass range in desolvation mode.
High-Resolution Double-Focusing Analyzer
- ICP interface improves resolution, reducing the initial kinetic energy spread by capacitively decoupling the plasma from the load coil
- Double-focusing mass analyzer focuses both ion energy and angular divergence for superior mass resolution
- Independent source and detector slit settings enhance mass resolution by separating molecular interferences from elemental peaks
- Wide detector slit in all resolutions guarantees the widest peak flatness at high resolving powers, a prerequisite for highly precise and accurate isotope ratio analyses
- Low, medium and high resolution settings can be selected with a single mouse click
Fully Flexible Detection System
- High-performance Faraday cups are laser machined from solid carbon to guarantee uniform response, high linearity, low noise, and long lifetimes; they completely eliminate the need for cup factors
- Tera-Ohm feedback resistors improve signal-to-noise ratios two to three fold
- Up to 10 current amplifiers with independent gains can be installed simultaneously
- Software control of the amplifier/Faraday cup connections allows amplifier configuration to be configured to the needs of each experiment and its required precision
- Available retarding potential quadrupole (RPQ) lenses improve abundance sensitivity by one order of magnitude to <500 ppb
- Multi-ion counting (MIC) arrays of discrete-dynode electron multipliers provide ultimate detection efficiency for small sample amounts
- Up to eight discrete dynode electron multipliers can be installed at one time
Sophisticated Software Control
- Software allows a fully automated plasma-ignition sequence
- Cup configuration editor is used to define cup configurations
- Method editor enables the user to set up measurement procedures, including static, multidynamic, and fast single-collector peak jumping strategies
- On-line and off-line data evaluation packages are available, including statistical capabilities and display of the results in spreadsheet or graphical form
- Users have access to all raw data and can monitor the results online during the analysis. The software allows data to be evaluated and flexibly exported; ideal for laser ablation applications.
- Sequence editor provides automatic, unattended acquisition and evaluation of samples including sample/standard bracketing and blank subtraction
- Triggering of, or triggering from coupled devices, e.g. from a laser system, is fully supported
- Automated report generation of analytical results is included
- Scripting based on the C programming language allows modification of supplied procedures.
- For GC and HPLC applications, additional software package dedicated to the evaluation of transient signals are available
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Neptune Plus™ High Resolution Multicollector ICP-MS
Meet the ever-expanding application demands of earth sciences, nuclear sciences and other fields requiring high-precision isotope ratio measurements with the Thermo Scientific™ Neptune Plus™ high resolution multicollector ICP-MS system. The Neptune Plus system combines field-proven technology with the latest innovations. This powerful double-focusing mass spectrometer, with high mass resolution, variable multicollectors, and multi ion counting capability, offers ground-breaking sensitivity, high dynamic ranges, unsurpassed linearity, and robust stability
- See more at: http://www.thermoscientific.com/en/product/neptune-plus-high-performance-multicollector-icp-ms.html#sthash.BIE47Miq.dpuf
