Instrumentation and measurement
Latest articles
On the proper use of a Warburg impedance
Join the audience for a live webinar on 4 December 2024 sponsored by Gamry Instruments, Inc., BioLogic, Scribner and Metrohm Autolab, in partnership with The Electrochemical Societ...
Multi-qubit entangled states boost atomic clock and sensor performance
Greenberger–Horne–Zeilinger states increase measurement frequency
Quantum material detects tiny mechanical strains
Sensitivity of vanadium-oxide-based device breaks previous record by more than an order of magnitude
Research headlines
Read article: Aluminium oxide reveals its surface secrets
Aluminium oxide reveals its surface secrets
New non-contact atomic force microscopy images shed more light on the "enigmatic insulator" aluminium oxide
Read article: Camera takes inspiration from cats’ eyes to improve imaging performance
Camera takes inspiration from cats’ eyes to improve imaging performance
Device might be employed in applications such as autonomous vehicles, drones and surveillance systems
Read article: Nuclear clock ticks ever closer
Nuclear clock ticks ever closer
New device could not only be the best time-keeper ever, it could also revolutionize fundamental physics studies
Read article: Light-absorbing dye turns skin of a live mouse transparent
Light-absorbing dye turns skin of a live mouse transparent
The technique could be used to observe a wide range of deep-seated biological structures and activity
Read article: Quantum sensor detects magnetic and electric fields from a single atom
Quantum sensor detects magnetic and electric fields from a single atom
New device is like an MRI machine for quantum materials, say physicists
Read article: Vacuum-sealed tubes could form the backbone of a long-distance quantum network
Vacuum-sealed tubes could form the backbone of a long-distance quantum network
Theoretical study proposes a "revolutionary" new method for constructing the future quantum Internet
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Explore more in instrumentation and measurement
Read article: Rambling tour of Europe explores the backstory of the Scientific Revolution
Rambling tour of Europe explores the backstory of the Scientific Revolution
Victoria Atkinson reviews Inside the Stargazer’s Palace by Violet Moller
Read article: Simultaneous structural and chemical characterization with colocalized AFM-Raman
Simultaneous structural and chemical characterization with colocalized AFM-Raman
HORIBA explores how colocalized AFM-Raman enables dual structural and chemical analysis in a single scan, offering deeper insights across diverse applications
Read article: Vacuum for physics research
Vacuum for physics research
Available to watch now. Gain an understanding of vacuum to better enable your critical research, with Agilent Technologies.
Read article: Quantum growth drives investment in diverse skillsets
Quantum growth drives investment in diverse skillsets
Scientific equipment makers are building a diverse workforce to feed into expanding markets in quantum technologies and low-temperature materials measurement
Read article: The most precise timekeeping device ever built
The most precise timekeeping device ever built
Colorado-based researchers have reduced the systematic uncertainty in their optical lattice clock to a record low. Ali Lezeik explains how they did it
Read article: Enabling battery quality at scale
Enabling battery quality at scale
The Electrochemical Society in partnership with BioLogic explores how high-throughput inspection can enable battery quality at scale
Read article: Quantum dot liquid scintillator could revolutionize neutrino detection
Quantum dot liquid scintillator could revolutionize neutrino detection
A new type of water-based scintillator made from quantum dots could make neutrino detectors safer and cheaper
Read article: Atomic clocks on the Moon could create ‘lunar positioning system’
Atomic clocks on the Moon could create ‘lunar positioning system’
Lunar time standard would avoid pitfalls of time dilation
Read article: ‘Event-responsive’ electron microscopy focuses on fragile samples
‘Event-responsive’ electron microscopy focuses on fragile samples
Pharmaceutical and catalysis research could benefit from new technique
Read article: Introducing Python for electrochemistry research
Introducing Python for electrochemistry research
Available to watch now, The Electrochemical Society, in partnership with BioLogic and Gamry Instruments, explores the advantages of using Python in your electrochemical research
Read article: Sound waves move objects in liquid
Sound waves move objects in liquid
New technique might be used in applications such as targeted drug delivery, micro-robotics and even additive manufacturing
Read article: How do electromagnetic waves carry information about objects they interact with?
How do electromagnetic waves carry information about objects they interact with?
Theorists develop new continuity equation to help them visualize the process
Read article: Structured electrons have chiral mass and charge
Structured electrons have chiral mass and charge
Discovery has puzzled some physicists
Read article: Second team uses laser to excite thorium-229 nuclear transition
Second team uses laser to excite thorium-229 nuclear transition
Rapid progress being made in development of nuclear clock
Read article: Matter-wave interferometry puts new limits on ‘chameleon particles’
Matter-wave interferometry puts new limits on ‘chameleon particles’
Gravity measurement benefits from optical lattice
Read article: Could the answer to the Antikythera astronomical device emerge from a Manhattan basement?
Could the answer to the Antikythera astronomical device emerge from a Manhattan basement?
Robert P Crease meets Michael Dubno, who is trying to solve the mystery of the ancient Antikythera mechanical device
Read article: Teaching nuclear physics using data rather than models, recovering helium from party balloons
Teaching nuclear physics using data rather than models, recovering helium from party balloons
A cryogenics technician and nuclear physicist are our podcast guests
Read article: MRI technique detects light-emitting molecules deep inside the brain
MRI technique detects light-emitting molecules deep inside the brain
New method circumvents limitations of optical imaging by making blood vessels sensitive to light from luminescent labelling proteins
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