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Interferometric microscopy or imaging interferometric microscopy is the concept of microscopy which is related to holography, synthetic-aperture imaging
Interferometric_microscopy
Microscopy methods
Interferometric scattering microscopy (iSCAT) refers to a class of methods that detect and image a subwavelength object by interfering the light scattered
Interferometric scattering microscopy
Interferometric_scattering_microscopy
Recording to reproduce a three-dimensional light field
of optical microscopy. The corresponding technique is called interferometric microscopy. Recent achievements of interferometric microscopy allow one to
Holography
Imaging technique
corresponding enhancement of the resolution. This technique is called interferometric microscopy. Compressive holography applies the principles of compressed sensing
Digital_holography
Viewing of objects which are too small to be seen with the naked eye
Digital pathology Imaging cycler microscopy Infinity correction Interferometric microscopy Köhler illumination List of microscopists Microdensitometer Timeline
Microscopy
Measurement method using interference of waves
– Nominal characteristics of non-contact (coherence scanning interferometric microscopy) instruments (2013(E) ed.). Geneva: International Organization
Interferometry
scanning in microscopy and microdensitometry. Thus, these instruments can be used as straight forward N-slit interferometers or as interferometric microscopes
N-slit_interferometer
Quantitative phase microscope
microscopy is thus replaced by a computer algorithm. Other closely related microscopy methods to digital holographic microscopy are interferometric microscopy
Digital holographic microscopy
Digital_holographic_microscopy
Optical microscopy technique
interference contrast (DIC) microscopy, also called Nomarski interference contrast (NIC) or Nomarski microscopy, is an optical microscopy technique used to enhance
Differential interference contrast microscopy
Differential_interference_contrast_microscopy
visualization. Additional laser microscopy techniques include harmonic microscopy, four-wave mixing microscopy and interferometric microscopy. A laser weapon is directed-energy
List_of_laser_applications
Optical imaging technique
Jennifer; Sandoghdar, Vahid (7 April 2023). "Confocal interferometric scattering microscopy reveals 3D nanoscopic structure and dynamics in live cells"
Confocal_microscopy
Any technique to improve resolution of an imaging system beyond conventional limits
Ferreira, Carlos (March 2011). "Single-exposure super-resolved interferometric microscopy by red–green–blue multiplexing". Optics Letters. 36 (6): 885–887
Super-resolution_imaging
ISO collection of international standards
Part 603: Nominal characteristics of non-contact (phase-shifting interferometric microscopy) instruments Part 604: Nominal characteristics of non-contact
ISO_25178
Fluorescence microscopy imaging method
using an interferometric approach with two opposing objectives collecting the fluorescence from the sample. Conventional fluorescence microscopy is performed
Photoactivated localization microscopy
Photoactivated_localization_microscopy
Non-linear optical imaging modality
Pump–probe microscopy is a non-linear optical imaging modality used in femtochemistry to study chemical reactions. It is a kind of ultrafast laser spectroscopy
Pump–probe_microscopy
Microscopy technique
Near-field scanning optical microscopy (NSOM) or scanning near-field optical microscopy (SNOM) is a microscopy technique for nanostructure investigation
Near-field scanning optical microscope
Near-field_scanning_optical_microscope
Topics referred to by the same term
IMOD can mean: Interferometric modulator display - a Qualcomm display technology. iPod - Apple iPod Modification Kaavo imod - Cloud Computing Management
IMOD
Physical chemist
contributions to femtosecond stimulated Raman spectroscopy (FSRS), interferometric scattering microscopy (iSCAT) and the development of mass photometry. He was born
Philipp_Kukura
– Nominal characteristics of non-contact (coherence scanning interferometric microscopy) instruments (2013(E) ed.). Geneva: International Organization
Coherence scanning interferometry
Coherence_scanning_interferometry
Imaging of focal planes within a thick sample
Galbraith JA, Galbraith CG, et al. (March 2009). "Interferometric fluorescent super-resolution microscopy resolves 3D cellular ultrastructure". Proc. Natl
Optical_sectioning
Study in optics
1930s due to work by Pieter Hendrik van Cittert and Frits Zernike. Interferometric visibility – Measure of interference in a wave system Mutual coherence
Coherence_theory_(optics)
interferometer / Michelson stellar interferometer Classical interference microscopy Bath interferometer (common path) Cyclic interferometer Diffraction-grating
List of types of interferometers
List_of_types_of_interferometers
Method for visualizing and analyzing particles in liquids
Interferometric nanoparticle tracking analysis (iNTA) is the next generation of NTA technology. It is based on interferometric scattering microscopy (iSCAT)
Nanoparticle tracking analysis
Nanoparticle_tracking_analysis
South Korean physicist
studies led to a new application area for digital holographic and interferometric microscopy. In September 2009, Choi returned to South Korea to work in the
Choi_Wonshik
Computational imaging technique in microscopy
Fourier ptychography is a computational imaging technique based on optical microscopy that consists in the synthesis of a wider numerical aperture from a set
Fourier_ptychography
Physicist
; Fetter, Richard D.; Hess, Harald F. (2009). "Interferometric fluorescent super-resolution microscopy resolves 3D cellular ultrastructure". Proceedings
Harald_Hess
South Korean scientist (born 1965)
remote-focusing interferometric scattering (RF-iSCAT) microscopy, to track a nanoparticle motion along the beam propagation direction. Then, this interferometric scattering
Cho_Minhaeng
Holography of electron waves
(50-1000 eV) can be realized in in-line scheme. It is important to shield the interferometric system from electromagnetic fields, as they can induce unwanted phase-shifts
Electron_holography
Laser physicist and author/editor
applications in imaging and microscopy. Concurrently, he applied Dirac's notation to describe quantum mechanically its interferometric and propagation characteristics
F._J._Duarte
measured at various illumination angles, employing the principle of interferometric imaging. Then, a 3D RI tomogram of the sample is reconstructed from
Holotomography
Optical system with resolution performance at the instrument's theoretical limit
Simultaneously illuminating from all angles (fully open condenser) drives down interferometric contrast. In conventional microscopes, the maximum resolution (fully
Diffraction-limited_system
American bioengineer and academic
include nonlinear optical microscopy. He developed nonlinear interferometric vibrational imaging, a variation of CARS microscopy, for imaging cancer resection
Stephen_Boppart
Optical imaging method
Time stretch microscopy, also known as serial time-encoded amplified imaging/microscopy or stretched time-encoded amplified imaging/microscopy' (STEAM),
Serial time-encoded amplified microscopy
Serial_time-encoded_amplified_microscopy
spatial resolution of electron microscopy to develop interferometric time-resolved photoemission electron microscopy. This has enabled recording of movies
Hrvoje_Petek
Imaging technique
e., like images of classical microscopy: orthogonal to the light beam of illumination. More precisely, interferometric images are created by a Michelson
Optical_coherence_tomography
Quantised attribute of electrons in free space
chiral plasmon resonances, and identification of crystal chirality. Interferometric methods borrowed from light optics also work to determine the orbital
Orbital angular momentum of free electrons
Orbital_angular_momentum_of_free_electrons
American biophysicist
Davidson, M. W.; Fetter, R. D.; Hess, H. F. (2009). "Interferometric fluorescent super-resolution microscopy resolves 3D cellular ultrastructure". Proceedings
Suliana_Manley
Infrared microscopy technique
scattering-type scanning near-field optical microscopy (s-SNOM). As s-SNOM, nano-FTIR is based on atomic-force microscopy (AFM), where a sharp tip is illuminated
Nano-FTIR
Measurement technique
similar to a standard optical microscope. The only differences are an interferometric objective lens and an accurate positioning stage (a piezoelectric actuator)
White_light_interferometry
Multi-user facility for fluid physics experiment in the Columbus module of ISS
The Optical Diagnostics Module houses the equipment for visual and interferometric observation, their related control electronics and the attachment points
Fluid_Science_Laboratory
Nonlinear optical process
measurements. Optical autocorrelation, in its intensity or fringe-resolved (interferometric) versions, uses SHG, unlike linear field autocorrelation. Also, most
Second-harmonic_generation
Study of living cells using time-lapse microscopy
Live-cell imaging is the study of living cells using time-lapse microscopy. It is used by scientists to obtain a better understanding of biological function
Live-cell_imaging
Device measuring quantum mechanical effects
states are sensitive to physical transformations that are detected by interferometric measurements. Quantum sensing can also be utilized in non-photonic
Quantum_sensor
Pakistani academic
Wayback Machine) Kiffner, M.; Evers, J.; Zubairy, M.S. (2008), "Resonant Interferometric Lithography beyond the Diffraction Limit", Physical Review Letters
Suhail_Zubairy
Technique used to measure 3D topography using shifted interference
Bruning (1992) cemented PSI as the standard framework for precision interferometric metrology. The four-step algorithm with π/2 steps is the most common
Phase-shifting_interferometry
Mass of a given molecule in daltons
the single-molecule level. The technique is based on interferometric scattered light microscopy. Contrast from scattered light by a single binding event
Molecular_mass
Quality of an image being out of focus
information the phase of the wave can be inferred. This is the basis of non-interferometric phase retrieval. Examples of phase retrieval algorithms that use defocused
Defocus_aberration
pollution sensor Analog image processing Atomic force microscopy Atomic Gravitational Wave Interferometric Sensor Attitude control (spacecraft): Horizon sensor
List_of_sensors
Polynomial sequence
of the 1953 Nobel Prize in Physics and the inventor of phase-contrast microscopy, they play important roles in various optics branches such as beam optics
Zernike_polynomials
Optical instrument used to measure optical densities in the microscopic domain
Academic, New York, 2003) Chapter 10. F. J. Duarte, Electro-optical interferometric microdensitometer system, US Patent 5255069 (1993). F. J. Duarte, Tunable
Microdensitometer
Use of plasmons for data transmission in circuits
devices (see also nanophotonics), and finds applications in sensing, microscopy, optical communications, and bio-photonics. Plasmonics typically utilizes
Plasmonics
Above-threshold ionization Absorption spectroscopy Accelerator physics Acoustic microscopy Acousto-optic deflector Acousto-optic modulator Acousto-optical spectrometer
List_of_laser_articles
Digital imaging circuit since 1970
Duarte, F. J. (1993). "On a generalized interference equation and interferometric measurements". Opt. Commun. 103 (1–2): 8–14. Bibcode:1993OptCo.103
Charge-coupled_device
Small-scale two-dimensional array of samples on a solid support
phase protein lysate microarrays, microarrays of lysates or serum Interferometric reflectance imaging sensor (IRIS) People in the field of CMOS biotechnology
Microarray
Optical phenomenon
characterized from their intensity distributions. As a result, a wide range of interferometric techniques are employed. The simplest of the techniques is to interfere
Optical_vortex
American computer scientist
& M.S. Mermelstein, “Multi-Beam Interferometric Illumination as the Primary Source of Resolution in Optical Microscopy,” Applied Physics Letters, Vol.
Berthold_K.P._Horn
Measurement of small-scale features on surfaces
digital holography, confocal microscopy, focus variation, structured light, electrical capacitance, electron microscopy, photogrammetry and non-contact
Surface_metrology
force microscopy sensor with integrated piezoresistive sensor and thermal bimorph actuator for high-speed tapping-mode atomic force microscopy phase-imaging
MEMS_electrothermal_actuator
American biophysicist
Richard D.; Hess, Harald F. (March 3, 2009). "Interferometric fluorescent super-resolution microscopy resolves 3D cellular ultrastructure". Proceedings
Catherine_G_Galbraith
Probe which tests for biological molecules
novel sensing methods, such as fluorescent glucose biosensors. The interferometric reflectance imaging sensor (IRIS) is based on the principles of optical
Biosensor
Protein fiber made by spiders
for spider silk, later visualized by atomic force microscopy (AFM) and transmission electron microscopy (TEM). Sizes of the nanofibrillar structure and
Spider_silk
German physicist
X-ray Ptychography, X-ray tensor tomography, grating-based Neutron interferometric imaging and iterative CT reconstruction algorithms. He is author and
Franz_Pfeiffer_(physicist)
Spectroscopy based on time- or space-domain data
number of stationary or self-scanned forms. While the analysis of the interferometric output is similar to that of the typical scanning interferometer, significant
Fourier-transform spectroscopy
Fourier-transform_spectroscopy
T. M.; Fotiadis, D.; Hug, H. J.; Engel, A. (2008). "Potential of interferometric cantilever detection and its application for SFM/AFM in liquids". Nanotechnology
NanoAndMore
interference contrast microscopy (FLIC) and reflection interference contrast microscopy (RICM) or interferometric scattering microscopy (iSCAT). When the
Model_lipid_bilayer
Vesicles found outside cells
potential, as well as electron microscopy (no lower bound) and immuno electron microscopy, single-particle interferometric reflectance imaging (down to
Extracellular_vesicle
cameras Object recognition 1D and 2D light grid Confocal microscopy / OCT Fluorescence microscopy Laser wavelength modulation Some of the applications for
Microscanner
American physicist
that drives the sun and stars". pppl.gov. Nazikian, Raffi (1989). "Interferometric study of density fluctuations in a tokamak plasma". openresearch-repository
Raffi_M._Nazikian
and sub-picosecond time resolution. With Stephen Boppart, non-linear interferometric vibrational imaging which produces easy-to-read, color-coded images
Martin_Gruebele
Class of devices for nanoscale functionality
device. Researchers from Ohio State University used atomic/friction force microscopy (AFM/FFM) to examine the effects of nanopatterning on hydrophobicity,
Nanoelectromechanical_systems
Theory in optics
that this laser cavity linewidth equation can also be derived from interferometric quantum principles. For the special case of zero dispersion from the
Multiple-prism dispersion theory
Multiple-prism_dispersion_theory
Biological molecular machines
techniques: single particle tracking based on dark field microscopy or interferometric scattering microscopy (iSCAT) Single-molecule electrophysiology can be
Molecular_motor
(spatially resolved acoustic spectroscopy) a non-destructive acoustic microscopy microstructural-crystallographic characterization technique commonly used
SRAS
Calendar year
American and Italian researchers demonstrated a more precise form of interferometric synthetic-aperture radar to measure the deformation caused by tectonic
2004
Technique for determining size distribution of particles
Diffusion coefficient Fluorescence correlation spectroscopy Interferometric scattering microscopy Light scattering Multi-angle light scattering Nanoparticle
Dynamic_light_scattering
Membrane-bound extracellular vesicles
Luisa B, Paolo B (2016-11-17). "Digital Detection of Exosomes by Interferometric Imaging". Scientific Reports. 6 37246. Bibcode:2016NatSR...637246D
Exosome_(vesicle)
scientist. He invented the magnetic drum memory and built prototype laser interferometric gravitational wave detector in Garching, Munich. Gerd Binnig: Physicist
List of German inventors and discoverers
List_of_German_inventors_and_discoverers
Laboratory technique
technology is called interferometric nanoparticle tracking analysis (iNTA) and is based on the interferometric scattering microscopy (iSCAT). In contrast
Particle_size_analysis
Israeli optoelectronics professor (born 1958)
Electrical Engineering Faculty of the Technion. His D.Sc. thesis on Interferometric Electro-Optical Signal Processing was received in 1992 and supervised
Joseph_Rosen_(professor)
Quantum process reducing the variance of spin along a particular axis
ultimate theoretical bound is known as the Heisenberg limit, where interferometric precision scales as 1 N {\displaystyle {\frac {1}{N}}} . The potential
Spin_squeezing
Award of the Jet Propulsion Laboratory
precise and safe entry descending and landing applications Ian Joughin Interferometric SAR for polar ice sheet topography and motion; development of remote
Lew_Allen_Award
leading role in constructing a laser interferometric gravitational wave detector, TAMA-300, which is the only interferometric-type detector in operation for
Meanings of minor-planet names: 8001–9000
Meanings_of_minor-planet_names:_8001–9000
Statistical theory
Gompper, Gerhard; Sabass, Benedikt (2020). "A Bayesian traction force microscopy method with automated denoising in a user-friendly software package".
Information_field_theory
or Michelson designs. This advantage can be very important in large interferometric setups such as in wind tunnels that have long optical paths through
Common-path_interferometer
Imaging systems using changes in phase
to microscopy won him the Nobel Prize in Physics in 1953. Ever since, phase-contrast microscopy has been an important field of optical microscopy. The
Phase-contrast_X-ray_imaging
imaging microscopy, multispectral optoacoustic tomography (MSOT), high-throughput microfluidic cytometry, interferometric scattering microscopy (iSCAT)
Immunophysics
Semiconductor laser
certain applications use the coherence of laser diodes. These include interferometric distance measurement, holography, coherent communications, and coherent
Laser_diode
Aspect of Pompeian art restoration
Fluorescence) analyses; OM (Optical Microscopy) of cross sections and paint layers; PLM (Polarized Light Microscopy) of powder samples; FTIR/ATR (Fourier
Conservation and restoration of Pompeian frescoes
Conservation_and_restoration_of_Pompeian_frescoes
Imitation of biological systems for the solving of human problems
butterfly's structural blue colour. In 2007, Qualcomm commercialised an interferometric modulator display technology, "Mirasol", using Morpho-like optical
Biomimetics
Quantum effect of uncertainty
quantum noise refers to the fluctuations of signal. The random error of interferometric measurements of position, due to the discrete character of photons
Quantum_noise
Laser pulse with duration a picosecond (10^-12 s) or less
Krasinski, J. S.; La Grone, M. J.; Trippenbach, M.; Band, Y. B. (1997). "Interferometric measurement of femtosecond wave-packet tilting in rutile crystal".
Ultrashort_pulse
photons by biological systems. Further developments in microscopy, like scanning electron microscopy (SEM), only increased this and would allow scientists
Bio-inspired_photonics
MEMS that measure mechanical properties of nanoscale objects
(2005). "An electromechanical material testing system for in situ electron microscopy and applications". Proceedings of the National Academy of Sciences of
MEMS for in situ mechanical characterization
MEMS_for_in_situ_mechanical_characterization
Microtechnology
but collection and detection is correspondingly more difficult. In situ microscopy assays with microfluidic cell cultures may help in this regard, but have
Bio-MEMS
Study of classical optics using Fourier transforms
Also, phase can be challenging to extract; often it is inferred interferometrically. Optical processing is especially useful in real time applications
Fourier_optics
X-ray-based methods, such as scanning transmission X-ray microscopy (STXM) and scanning photoemission microscopy (SPEM). However, these techniques are much less
Nano-ARPES
Penticton, British Columbia, built shortly thereafter, features an interferometric radio telescope, a 26-m single-dish antenna and a solar flux monitor
Natural scientific research in Canada
Natural_scientific_research_in_Canada
March 2020. Johnson, Michael D.; et al. (18 March 2020). "Universal interferometric signatures of a black hole's photon ring". Science Advances. 6 (12
January–March_2020_in_science
INTERFEROMETRIC MICROSCOPY
INTERFEROMETRIC MICROSCOPY
INTERFEROMETRIC MICROSCOPY
INTERFEROMETRIC MICROSCOPY
Girl/Female
Muslim
Trustworthy, Faithful, Peaceful, Honest
Boy/Male
American, Australian, Danish, Hebrew, Jamaican
Like the Lord
Girl/Female
Muslim/Islamic
Sweet light fragrance
Surname or Lastname
English
English : unexplained.
Boy/Male
Muslim
Pilgrimage site 25 km from city mecca
Boy/Male
Australian, Irish
Brave; Wise
Boy/Male
Muslim
Passable, Unobstructed
Girl/Female
Australian, German, Scandinavian
Peaceful Ruler; Female Version of Eric; Ruler Forever
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Arabic, Muslim
Extreme Power
Girl/Female
Hindu
Start
INTERFEROMETRIC MICROSCOPY
INTERFEROMETRIC MICROSCOPY
INTERFEROMETRIC MICROSCOPY
INTERFEROMETRIC MICROSCOPY
INTERFEROMETRIC MICROSCOPY
n.
The application of chemical tests to minute objects or portions of matter, magnified by the use of the microscopy; -- distinguished from macro-chemistry.
n.
One skilled in, or given to, microscopy.
n.
The use of the microscope; investigation with the microscope.
a.
Of or pertaining to the microscope or to microscopy; made with a microscope; as, microscopic observation.
a.
Pertaining to microscopy, or to the use of the microscope.