The ZenFone 3 brings a glass and metal design, fingerprint security and a really impressive 16 - megapixel camera experience, backed up
by optical image stabilization, phase detect autofocus, laser autofocus and dual LED flash.
Low - light performance gets helped
by optical image stabilization (OIS), which also helps with video capture.
Both are backed
by optical image stabilization and f2.2 lenses.
The ZenFone 3 and ZenFone 3 Deluxe sport cameras with better resolution and are also assisted
by Optical Image Stabilization (OIS) unlike the ZenFone 3 Laser which is only assisted by EIS.
Videos from the S9 Plus are detailed and helped along
by optical image stabilization in the rear module.
Not exact matches
Several hours later, a team of astronomers known as the ROTSE (Robotic
Optical Transient Search Experiment) collaboration, led
by Carl Akerlof of the University of Michigan, reported that the visible - light counterpart of the burst was also seen in the
images taken with a small, robotic telescope operated
by their team, starting only 22 seconds after the burst.
Sweeping
images of the sunken ship were made
by stitching together hundreds of
optical and sonar
images collected
by deep - diving robots during a 2010 expedition
About the size of «a hair on a bumblebee,» he says, with a circuit the size of a dime, it contains no
optical lenses and works
by allowing a small volume of fluid to flow across a microchip, which then sends
images of the sample to a computer.
An astronomer
by training but a photographer at heart, Zoltan Levay creates
images of the cosmos with one of humankind's most advanced
optical instruments: the Hubble Space Telescope.
Imaged by a high - performance
optical instrument on KAYUGA called the multiband imager, this photo was taken approximately 100 kilometers above the moon's surface.
The
image was taken
by the researchers using
optical microscopy.
This
image depicts a single cell experiment in which a human neutrophil was picked up
by a micropipette (top panel) and brought into close contact with S. Typhimurium cells immobilized
by optical tweezers.
By processing all of the photoacoustic imaging data with computer programs, scientists obtain a 2 - D en - face photoacoustic
image called a depth maximum amplitude projection (DMAP)
image, which shows the
optical absorption distribution or photoacoustic contrast of the sample.
Now researchers led
by a group at Princeton University have developed a new technique using nanosize materials that sets the stage for new lenses that eliminate the errors and
image distortion inherent in today's
optical technology — and may one day be used to check for toxic chemicals in the air and the body.
A ring
image Cerenkov counter analyzes the spray of light given off
by particles as they crash through a porous material called an aerogel; that light reveals the particles» speed before their final collision into the energy - measuring electromagnetic calorimeter — a lead brick laced with
optical fibers.
And in the future, a technique called
optical interferometry, which links together the observations of more than one telescope, might make it possible to see the multiple lensed
images produced
by the planets of another star system.
Annotated
image of the Spiderweb Galaxy as seen
by the Hubble Space Telescope (
optical) in red, the Very Large Array (radio) in green and the Atacama Large Millimeter / submillimeter Array (sub-millimetre) in blue.
Using «Raman»
optical technology, scientists of the University of Twente in The Netherlands, can now produce
images of brain tissue that is affected
by Alzheimer's disease.
With additional funding support from NIBIB, Wang recently overcame the
optical diffusion limit, which is the depth at which light can be used to take
images of tissues in the body
by other existing high - resolution imaging technologies.
Super-resolution
optical microscopy produces
images whose spatial resolution surpasses a theoretical limit imposed
by the wavelength of light, offering extraordinary visual detail of structures inside cells.
By incorporating a lens that changes optical parameters in response to an electric current, the innovative technology can produce higher quality images than currently available and could make eye examinations faster and more comfortable for patients by avoiding the need to undergo imaging with multiple instruments to look at different areas of the ey
By incorporating a lens that changes
optical parameters in response to an electric current, the innovative technology can produce higher quality
images than currently available and could make eye examinations faster and more comfortable for patients
by avoiding the need to undergo imaging with multiple instruments to look at different areas of the ey
by avoiding the need to undergo imaging with multiple instruments to look at different areas of the eye.
The GBT
images also confirmed the presence of a small moon - like companion zipping around the asteroid, which was previously detected with ground - based
optical telescopes
by Joe Pollock of Appalachian State University in Boone, North Carolina, and Petr Pravec of Ondrejov Observatory in the Czech Republic.
Now, Lin Wu and colleagues at the Institute of the A * STAR Institute of High Performance Computing have modeled the
optical and plasmonic properties of nanoscale ribbons of a new phase of gold — the 4H hexagonal phase (see
image)-- produced and characterized
by collaborators at other institutes in Singapore, China and the USA.
However, the performance of these microscopes is often affected
by problems with chromatic aberrations —
optical effects that limit the resolution or degree of fineness to which
images of the material structures can be acquired — and previous solutions to the problem have often proved difficult to manufacture and implement.
(b) An
optical image showing a mid-L4 stage C. elegans trapped
by multiple oscillating microbubbles.
An
optical image of the «Tadpole» galaxy, an interacting galaxy, taken
by the Hubble Space Telescope.
One of these two photons is detected
by a photodiode and used to trigger an acousto -
optical modulator, causing it to divert the second photon to a tapered
optical fiber directed at a pipette containing a rod cell from a frog's eye (see
image).
«In our demonstration, we obtained
optical images of aluminum nanostructures with 46 nanometer resolution, then validated the non-invasiveness of CLAIRE
by imaging a conjugated polymer film.
This luminescence is recorded and correlated to the electron beam position to form an
image that is not restricted
by the
optical diffraction limit.
They recently conducted a feasibility study with promising results that have been published in an article in Medical
Image Analysis called: «Integrated local binary pattern texture features for classification of breast tissue
imaged by optical coherence microscopy.»
The 45 - centimeter Dutch Open Telescope (DOT) could open the door to bigger solar
optical telescopes
by eliminating the need for putting the telescope mirror in a vacuum to prevent heat from distorting the
image.
Simulated false - color (450 — 850 nm)
image of a planetary system around a nearby G star (Beta Cvn) seen
by a 12 m
optical space telescope equipped with a free - flying ~ 100 m diameter starshade.
This technique, first introduced
by British radioastronomer Roger Clifton Jennison in 1958, has been extensively applied in astronomical interferometry since the mid 1970s, yielding high resolution
images of astronomical sources at radio, infrared and
optical wavelengths.
From ESA: «This
image shows two polished test mirror segments being inspected
by an
optical engineer: one segment with the gold coating already applied, the other without.
The large - scale
optical and radio structures previously have been thought to indicate the symmetry axis of the active nucleus in the inner light - months of the galaxy, an idea now called into question
by the new VLBA
images.
The
optical design utilizes a dynamic z - stack to produce all - in - focus [1 — 3] information rich
images enabling detailed analysis
by generating in - depth
images not previously seen with other techniques.
A research group led
by Professor Dr. Benjamin Judkewitz at Charité — Universitätsmedizin Berlin is planning to overcome the limitations of
optical microscopy and produce
images of deeper tissue layers.
«This was suggested
by Martin Schwarzschild more than 20 years ago, and was seen in
optical images of Betelgeuse's surface in 1990.»
The
optical counterpart is shown in the
image below as seen
by Hubble.
To validate candidate planets identified
by K2, the researchers obtained high - resolution
images of the planet - hosting stars from Keck Observatory's near infrared camera (NIRC2), the Gemini and Large Binocular Telescope (among others) as well as high - resolution
optical spectroscopy using Keck Observatory's high resolution spectrograph (HIRES) instrument and the AUtomated Planet Finder.
To validate candidate planets identified
by K2, the researchers obtained high - resolution
images of the planet - hosting stars as well as high - resolution
optical spectroscopy data.
This infrared
image shows a laser beam signal from NASA's LADEE moon probe as seen in infrared
by the European Space Agency's
Optical Ground Station in Tenerife, Spain on Oct. 26, 2013.
After incorporation of the terminators, the instrument
images and distinguishes the four different terminators (A, C, G and T)
by their unique attached fluorescent dye using two different lasers (red and green) and four different
optical filters.
The diagnostic effect of a PNB is associated with its brightness that is characterized through the pixel
image amplitudes (Figure 2A, C, E), normalized
by the pixel
image amplitudes of the corresponding NP clusters as measured prior to their
optical excitation and calculated as an amplification of
optical scattering
by the PNB relative to that
by the NP cluster (Figure 4).
Such a high contrast of PNB imaging was achieved due to their threshold mechanism: no PNBs were generated in HS - 5 cells (Figure 7H), and their
images were formed
by the
optical scattering
by gold NPs that did not produce PNBs.
The
image shows the localization of the gravitational - wave (from the LIGO - Virgo 3 - detector global network), gamma - ray (
by the Fermi and INTEGRAL satellites) and
optical (the Swope discovery
image) signals from the transient event detected on the 17th of August, 2017.
The camera doesn't have
optical image stabilization, which can mean blurry shots caused
by unsteady hands.
It looks like it will be manufactured
by Motorola and that it will sport a a 5.9 - inch Quad HD screen, Snapdragon 805 CPU paired with 3 GB of RAM, and a 13 MP primary shooter with
optical image stabilization and dual - LED flash.
As we can see from the
images, the Android phone features a 5.9 - inch full HD IPS display with 1920 x 1080 pixels resolution and slim bezel for a large - screen viewing experience and sleek design, and G Pro 2 is powered
by a Qualcomm Snapdragon 800 2.26 GHz quad - core processor and comes with 3 GB DDR3 RAM and 16GB / 32 GB eMMC ROM with microSD card slot for high performance and enough store capacity, moreover, the Android phone also sports an enhanced 13.0 - megapixel rear camera with
Optical Image Stabilizer Plus and natural flash for high quality imaging, while flash for selfie feature enhances its 2.1 - megapixel front - facing camera for selfie.
The Priv has a 18 - megapixel rear camera certified
by Schneider - Kreuznach, has a dual - tone LED Flash,
optical image stabilization (OIS), phase detection auto focus (PDAF), f / 2.2 aperture, 6P lens and a 2 - megapixel front - facing camera with f / 2.8 aperture and 1.7 micron pixel size.