Spectrometer Collection

Elemental analysis
MODEL RELEASED. Elemental analysis. Laboratory technician using an inductively coupled plasma - atomic optical emission spectrometer (ICP-AES)

Cuba. True-colour satellite image of the island of Cuba (upper left to lower right) in the Caribbean Sea. North is at top. Vegetation is green, water is blue and clouds are white

Spectrometer Ridden By R.Johnson Cheltenham Festival 2003 Cheltenham Racecourse, Cheltenham 12 March 2003 Date: 12 March 2003

Horse doping tests -- a laboratory technician in a white coat sits in front of a Packard Liquid Scintillation Spectrometer, testing samples. Date: circa 1970s

Horse doping tests in a laboratory, Newmarket
Horse doping tests -- a laboratory technician in a white coat turns a knob on a Packard Liquid Scintillation Spectrometer, used for testing samples at the Horse Doping Test Centre in Newmarket

Raman laser spectroscopy C016 / 3827
Raman laser spectroscopy. Researcher observing laser beams and microscope objectives. This LabRAM HR Raman laser spectrometer is being used to obtain phase

Mars Odyssey spacecraft passes above Mars south pole
October 28, 2003 - The Mars Odyssey spacecraft passes above Mars south pole in this artists concept illustration. The spacecraft has been orbiting Mars since October 24, 2001

Mars Odyssey spacecraft over martian sunrise
October 28, 2003 - Odyssey over Martian Sunrise. The Mars Odyssey spacecraft passes above a portion of the planet that is rotating into the sunlight in this artists concept illustration

A close-up view of the arm on NASAs Mars 2003 Rover
This is a close-up view of the arm on the Mars 2003 Rover that contains several of the scientific instruments. The Microscopic Imager is being extended toward the rock

Views of protoplanetary disks surrounding the stars HD 141569, in the constellation Libra (left), and HR 4796A
PROTOPLANETARY DISKS. Views of protoplanetary disks surrounding the stars HD 141569, in the constellation Libra (left), and HR 4796A, in the constellation Centaurus

An image made by a Total Ozone Mapping Spectrometer (TOMS) on board a NASA satellite, 24 March 1997
EARTH FROM SPACE: OZONE. An image made by a Total Ozone Mapping Spectrometer (TOMS) on board a NASA satellite, 24 March 1997, showing the ozone over the Northern Hempisphere

This Envisat image, 2008 with the Medium Resolution Imaging Spectrometer, captures a plankton bloom stretching across the Northeast Passage in the Barents Sea

William Henry Bragg (1862-1942) English physicist. Founder of X-ray crystallography, he is shown here using an X-ray spectrometer

six-sided feature encircling the north pole of Saturn near by the visual and infrared mapping spectrometer on NASAs Cassini spacecraft

Technician with mass spectrometer C018 / 2320
Mass spectrometer. A technician operating a mass spectrometer in a nanomaterials laboratory. Photographed at the Tartarstan Nanotechnology Centre in Kazan, Russia

Technician with X-ray spectrometer C018 / 2319
Materials testing. A technician loading a sample into an X-ray spectrometer. Photographed at the Tartarstan Nanotechnology Centre in Kazan, Russia

Rutherford backscattering spectrometer C016 / 3834
Rutherford backscattering spectrometer chamber. This is a view of the inside of one of the chambers of the spectrometer. Rutherford backscattering spectroscopy (RBS)

Nuclear magnetic resonance spectrometer C016 / 3830
Nuclear magnetic resonance (NMR) spectrometer. NMR spectroscopy measures the resonance between an applied magnetic field and the magnetic moment of a molecules atoms

Raman laser spectroscopy C016 / 3826
Raman laser spectroscopy. Close-up of a display screen, laser beams, and microscope objectives. This LabRAM HR Raman laser spectrometer is being used to obtain phase

Molecular beam mass spectrometer C016 / 3825
Molecular beam mass spectrometer (MBMS). This machine is being used to analyse vapours during gasification and pyrolysis processes in research into the thermochemical conversion of renewable energy

TOF SIMS spectrometer C016 / 3814
TOF SIMS spectrometer. Time-of-flight (TOF) secondary ion mass spectrometer (SIMS), used to analyse the surfaces of samples of various materials

SIMS surface spectroscopy analysis C016 / 3813
SIMS surface spectroscopy analysis. Researcher using a secondary ion mass spectrometer (SIMS) to carry out surface analysis of various samples

Geochemical analysis. Desk holding a portable X-ray fluorescence (XRF) spectrometer (centre right) used to determine the mineral composition of rock samples on location

Portable X-ray fluorescence spectrometer. Niton X-ray fluorescence (XRF) analyser used to determine the mineral composition of rock samples on location

High-precision spectrometer. Researcher using a spectrometer that has been designed to give results with high accuracy and precision. Spectrometry is the analysis of the electromagnetic spectrum

Close-up of part of a mass spectrometer

Technician prepares samples for mass spectrometer
MODEL RELEASED. Mass spectrometry. Scientist examines tubes of samples to be analysed in a mass spectrometer. Results of analysis are shown on the computer monitor

Atomic absorption spectroscopy in water analysis
Model Released. Scientist using an atomic absorption (a) spectrometer to analyse water samples. The results are displayed graphically by a computer

Time-of-flight secondary mass spectrometer
Time-of-flight secondary ion mass spectrometer. View of a sample tray of a time-of-flight secondary ion mass spectrometer (ToF SIMS). This mass spectrometer analyses the surface of a sample

Technician uses an isotope ratio mass spectrometer
MODEL RELEASED. Isotope ratio mass spectrometry. Technician observes the visual display unit of an isotope ratio mass spectrometer during the analysis of a sample

Tropical Storm Lane, true-colour satellite image. This cyclonic storm began as Tropical Depression 14-E on 5 September 2000, over the Pacific Ocean around 200 miles off the Mexican coast

Tropical cyclones over the Indian Ocean, satellite image. North is at top. The coast of Madagascar is at far left (green). The cyclones are (from left- right): Gerry, Hape, 18S and Fiona

Sand storm over Canary Islands
Sand storm. True-colour satellite image of a sand storm from the Sahara Desert, Africa (right), over the Canary Islands (centre to centre left) in the Atlantic Ocean. North is at top

River Nile, true-colour satellite image. North is at top. Water is blue, deserts are brown, clouds are white. The lower reaches of the River Nile flow through Egypts deserts before reaching

Tropical Cyclone Erica (22P), satellite image, on 13 March 2003. North is at top. Erica peaked as a powerful Category 5 cyclone on 12 March 2003

Science / Fraunhofer
JOSEF VON FRAUNHOFER demonstrates his spectrometer at Munchen, 1814

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A spectrometer is a powerful tool used for elemental analysis, providing valuable insights in various fields. In Cuba, horse doping tests are conducted using this sophisticated device. Picture a laboratory technician donning a white coat, diligently working in front of a Packard spectrometer to ensure fair play and integrity in the racing industry. Similarly, in Newmarket's laboratories, horse doping tests are carried out with utmost precision. A dedicated technician sits before the same Packard spectrometer, meticulously analyzing samples to detect any illicit substances that may compromise the sport's integrity. Beyond horse racing, spectrometers find applications across diverse domains. Raman laser spectroscopy C016/3827 allows scientists to delve into molecular structures and understand their composition deeply. Meanwhile, portable Fourier Transform Infrared (FTIR) spectrometers enable real-time surface inspection during manufacturing processes. In space exploration too, these instruments play an essential role. The Ames Autonomous Module Scanner (AMS), equipped with precise thermal-infrared imaging capabilities, forms part of scientific missions like the Mars Odyssey spacecraft passing above Mars' south pole or capturing breathtaking views of Martian sunrises. Even on our own planet Earth, technology aids us in unraveling mysteries through close-up views provided by NASAs Mars 2003 Rover arm equipped with advanced spectroscopic tools. These instruments help scientists analyze rocks and minerals on distant planets and moons alike. The versatility of spectrometers extends far beyond elemental analysis; they unlock hidden information about our world and beyond while contributing to advancements in science and technology every day.