Valley Cottage, NY -- (SBWIRE) -- 09/21/2018 -- Optical Emission Spectroscopy (OES)
In optical emission spectroscopy, energy in the form of electrical spark is generated between a sample of metal and the electrode. This brings the vaporized atoms to a high energy state within a discharge plasma. The excited particles in discharger plasma develop a spectrum of emission that is unique to each element. Numerous emission spectral lines with varied characteristics are generated by a single element in the process of optical emission spectroscopy.
Therefore, using optical emission spectroscopy, one can prove that the light generated by the plasma discharge is the accumulated version of the spectral lines generated by the element specimen. In order to retrieve the emission spectrum for a specific element in optical emission spectroscopy, the discharge light is split using the process of diffraction grating. In optical emission spectrometry, the individual emission spectrum intensity is dependent on the elemental concentration in the sample. Photomultiplier tubes act as detectors in order to mark the absence or presence of the emission spectrum that is extracted for each element. They also detect the intensity of spectrum in order to perform quantitative and qualitative analyses in optical emission spectroscopy.
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Considering the broader sense, the process of optical emission spectrometry include inductively coupled plasma (ICP) based excitation source for optical emission spectrometry. However, optical emission spectroscopy usually refers to the use of direct current arc discharge, glow discharge or spark discharge as the excitation discharge.
Optical emission spectroscopy Market: Drivers & Challenges
Portable mode of optical emission spectroscopy helps in determining the boron and carbon content in iron and steel parts. Also, using optical emission spectroscopy, it is possible to classify stainless steel into 304L, 316L et cetera. In duplex stainless steel, the nitrogen content can be checked and confirmed by incorporating optical emission spectroscopy process techniques. Similarly, in aluminum alloys, the additional content of light metals, such as magnesium, silicon and aluminum, can be accurately measured using optical emission spectroscopy. Optical emission spectroscopy minimizes the requirement of sample collection or damage to in-service infrastructure. The risk of re-test because of sample contamination is also eradicated by optical emission spectroscopy. Asset downtime elimination is made possible by optical emission spectroscopy as the process can be performed on both, hot and cold surfaces. Such factors are expected to drive the global optical emission spectroscopy market.
However, hot work permit is required as optical emission spectroscopy is essentially a spark spectroscopy. Once the process of optical emission spectroscopy is finished, it leaves a burn mark on the test sample surface. The process requires consumption of highly pure argon. Hence, a site permit for the possession of gas bottle is necessary in order to perform optical emission spectroscopy on site. These are some factors which will challenge the growth of the global optical emission spectroscopy market.
Optical emission spectroscopy Market: Segmentation
On the basis of offering, the global optical emission spectroscopy market can be segmented into,
Services
Maintenance Services
Inspection Services
Equipment
On the basis of vertical, the global optical emission spectroscopy market can be segmented into,
Environmental
Food and Beverages
Power Generation
Pharmaceuticals and Life Sciences
Infrastructure
Chemicals
Aerospace and Defense
Waste Management
Automotive
Metals and Heavy Machinery
Oil and Gas
Others
By detector type, the global optical emission spectroscopy market can be segmented into,
Hybrid Detectors
Solid State Detectors (SSDs)
Photo-multiplier Tubes (PMT)
On the basis of excitation source type, the global optical emission spectroscopy market can be segmented into,
Inductively Coupled Plasma OES
Arc/Spark OES
On the basis of form factor, the global optical emission spectroscopy market can be segmented into,
Portable Optical Emission Spectrometers
Bench-top Optical Emission Spectrometers
Optical emission spectroscopy Market: Regional Outlook
North America, being the most prominent region in the optical emission spectroscopy market globally, is expected to lead the global revenue generation owing to rise in government investments for research and development in optical emission spectroscopy related fields. Focus on technological developments in environmental and material sciences drives the optical emission spectroscopy market in North America. Regulatory approval plays a major role in affecting the launch of new instrument or devices in the market. In North America, the regulatory approval scenario is quite favorable in the case of optical emission spectrometers, thus, affecting the market for optical emission spectroscopy positively.
Among all the regions, the optical emission spectroscopy market in South East Asia and Others of APAC region is estimated to grow the most during the forecast period. This growth can be attributed to the increase in funding by companies for research and development in optical emission spectroscopy and focus on fields like material science. Pioneering research in optical emission spectroscopy related fields by technical educational institutes in APAC region will contribute to the rise in awareness and demand for optical emission spectroscopy.
Optical emission spectroscopy Market: Key Players
Few of the major players operating in the Optical emission spectroscopy Market include ANDOR (an Oxford Instruments company); Bruker; PerkinElmer Inc.; KRÜSS GmbH; Malvern Panalytical Ltd (a Spectris company); Avantes BV; Analytik Jena AG; Horiba; Shimadzu Corporation; SPECTRO Analytical Instruments GmbH and Hitachi High-Technologies Corporation, among others.
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