Bruker Corporation Handheld Laser Induced Breakdown Spectrometer

Description
Handheld laser induced breakdown spectrometry (HH-LIBS) is an emerging method which shows promising capabilities for alloy analysis and may be able to complement HH-XRF in alloy analysis; especially in alloys containing low atomic number elements like Be, Li, Mg, Al and Si. Contact our sales team today to learn more about Bruker's new EOS 500  HH-LIBS! In HH-LIBS, a laser pulse strikes the surface of the sample and ablates an amount of material in the range of 1 ng and generates a plasma plume (partially ionized gas) in the temperature range of 5,000-20,000K. The energy of the laser is low, but is focused to a microscopic point on the sample to generate the plasma. In this plasma, the matter constituting the samples is dissociated into atoms (atomization) and partially ionized. Those atoms and ions will be excited (transition of electrons from lower to higher energy levels of valence shell) and by returning into their ground state (transition from higher to lower level of valence shell) they will emit characteristic lines for each element. The emitted light is transmitted through optical fibers and the polychromatic radiation is dispersed in one or more spectrometers by diffraction gratings and detected by CCD chips.

Suppliers

Company
Product
Description
Supplier Links
Handheld Laser Induced Breakdown Spectrometer -  - Bruker Corporation
Billerica, MA, USA
Handheld Laser Induced Breakdown Spectrometer
Handheld Laser Induced Breakdown Spectrometer
Handheld laser induced breakdown spectrometry (HH-LIBS) is an emerging method which shows promising capabilities for alloy analysis and may be able to complement HH-XRF in alloy analysis; especially in alloys containing low atomic number elements like Be, Li, Mg, Al and Si. Contact our sales team today to learn more about Bruker's new EOS 500  HH-LIBS! In HH-LIBS, a laser pulse strikes the surface of the sample and ablates an amount of material in the range of 1 ng and generates a plasma plume (partially ionized gas) in the temperature range of 5,000-20,000K. The energy of the laser is low, but is focused to a microscopic point on the sample to generate the plasma. In this plasma, the matter constituting the samples is dissociated into atoms (atomization) and partially ionized. Those atoms and ions will be excited (transition of electrons from lower to higher energy levels of valence shell) and by returning into their ground state (transition from higher to lower level of valence shell) they will emit characteristic lines for each element. The emitted light is transmitted through optical fibers and the polychromatic radiation is dispersed in one or more spectrometers by diffraction gratings and detected by CCD chips.

Handheld laser induced breakdown spectrometry (HH-LIBS) is an emerging method which shows promising capabilities for alloy analysis and may be able to complement HH-XRF in alloy analysis; especially in alloys containing low atomic number elements like Be, Li, Mg, Al and Si.
Contact our sales team today to learn more about Bruker's new EOS 500  HH-LIBS!
In HH-LIBS, a laser pulse strikes the surface of the sample and ablates an amount of material in the range of 1 ng and generates a plasma plume (partially ionized gas) in the temperature range of 5,000-20,000K. The energy of the laser is low, but is focused to a microscopic point on the sample to generate the plasma. In this plasma, the matter constituting the samples is dissociated into atoms (atomization) and partially ionized. Those atoms and ions will be excited (transition of electrons from lower to higher energy levels of valence shell) and by returning into their ground state (transition from higher to lower level of valence shell) they will emit characteristic lines for each element. The emitted light is transmitted through optical fibers and the polychromatic radiation is dispersed in one or more spectrometers by diffraction gratings and detected by CCD chips.

Supplier's Site

Technical Specifications

  Bruker Corporation
Product Category Atomic Emission and Optical Emission Spectrometers
Product Name Handheld Laser Induced Breakdown Spectrometer
Excitation Source Laser-Induced Breakdown
Unlock Full Specs
to access all available technical data

Similar Products

JOAP Certified Elemental Analyzer - SpectrOil M/N-W - AMETEK Spectro Scientific
Specs
Display Video
Channels 20
User Interface Digital Front Panel
View Details
BLUE-Wave Fiber Optic Spectrometer - NIR3b - StellarNet, Inc.
Specs
Measurement Type Dispersive
Optical System Fiber Optic Diffraction Grating
Detector Type Other; (CCD or PDA)
View Details
Optical Emission Spectrometers -  - Bruker Corporation
Specs
Excitation Source Spark or Arc (optional feature)
Detector Solid State (optional feature)
General Features Portable (optional feature)
View Details
Stationary Optical Emission Spectrometer - FM EXPERT - Hitachi High-Tech America
Specs
Excitation Source Spark or Arc
Detector Solid State
View Details