«Such low voltage operation, and therefore low power consumption, may herald a revolutionary direction
in photodetector and solar cell material design,» Grossnickle said.
Increasing the efficiency of light - to - electricity conversion has been one of the primary aims
in photodetector construction since their invention.
To do so they made the atoms in the sample vibrate by shining a laser beam through a small hole
in the photodetector, which was placed right on top of the sample.
The finding could lead to improvements
in photodetectors and night - vision systems, and possibly to a new approach to generating electricity from sunlight.
Not exact matches
The high - speed
photodetector, called PIPED (Plasmonic Internal Photoemission Detector), is now presented by Mühlbrandt as first author, together with colleagues of KIT and ETH Zurich,
in the Optica journal under the heading «Silicon - Plasmonic Internal - Photoemission Detector for 40 Gbit / s Data Reception.»
The materials would be used for infrared lasers, for
photodetectors or for innovative LEDs
in the infrared range, for example, since the physical properties of germanium are significantly changed by these additives.
In this scenario, each silicon photodetector is like a bucket that collects light, after which the transistors read the information in that bucket to generate each image, says Ted Sargent, InVisage's founder and chief technology office
In this scenario, each silicon
photodetector is like a bucket that collects light, after which the transistors read the information
in that bucket to generate each image, says Ted Sargent, InVisage's founder and chief technology office
in that bucket to generate each image, says Ted Sargent, InVisage's founder and chief technology officer.
Photodetectors are almost ubiquitous, found
in cameras, cell phones, remote controls, solar cells, and even the panels of space shuttles.
In the study, black phosphorus was also able to act as an efficient and highly - responsive detector of light, extending the wavelength range over which conventional silicon - based
photodetectors can operate.
Changes
in the light's direction can be measured with a
photodetector and converted into a measure of physical force.
Used
in conjunction with a
photodetector, the filter converts optical signals to electrical signals.
Varying
in size from just 3.5 to 50 μm, the dimensions of the graphene microstructures developed by UIUC put them right
in the middle of a range of electronic devices, including various types of
photodetectors, nano antennas, and other sub-miniature components that were once only the domain of silicon - based products.
In our approach, stretchable
photodetectors and OLEDs are fabricated directly on a three - dimensionally micro-patterned stretchable substrate composed of curvilinearly connected bumps and valleys; this structure allows for efficient absorption of stretching strain.
Some examples of stretchable ultraviolet (UV), visible, and infrared (IR)
photodetectors and organic light - emitting diodes (OLEDs) which have stretchability
in uniaxial and multiaxial directions are demonstrated by adopting a unique geometric engineering of the layers
in the devices.
In this respect, a few stretchable optoelectronic devices including stretchable light - emitting diodes (LEDs), stretchable solar cells, and stretchable
photodetectors have been investigated.
Planarians such as Schmidtea mediterranea live
in freshwater streams and ponds, eating insects and avoiding light, which they spot with the simple
photodetectors that give them a cross-eyed look.
In a collaboration led by CNIT — a consortium of Italian universities and national laboratories focused on communication technologies — researchers from AMO GmbH, Ericsson, Nokia Bell Labs, and Imec have developed graphene - based
photodetectors and modulators capable of receiving and transmitting optical data faster than ever before.
At NEC
in Japan, where I used to work, researchers have built these ultrafast
photodetectors and tested them on computer processors.
EBBESEN:
In our data - intensive society, photodetectors play an important role in transferring information carried by light into an electronic signal
In our data - intensive society,
photodetectors play an important role
in transferring information carried by light into an electronic signal
in transferring information carried by light into an electronic signals.
This will make the combined light from the two arms get out of phase with each other, resulting
in some of the laser light reaching the
photodetector.
The low - and intermediate - mass YSOs HH 46, TMR 1, IRAS 15398 - 3359, DK Cha, NGC 7129 FIRS 2, and NGC 1333 IRAS 2A were observed with the
Photodetector Array Camera and Spectrometer (PACS)
in four transitions of OH and two [OI] lines.
The
photodetector array camera and spectrometer (PACS) aboard the Herschel Space Observatory allows imaging observations
in the far infrared at unprecedented resolution, i.e. at better than 6» to 12» over the wavelength range of 60 -LCB- \ mu -RCB- m to 210 -LCB- \ mu -RCB- m. Together with the results from ground - based observations, these spatially resolved data can be modelled to determine the nature of the debris and its evolution more reliably than would be possible from unresolved data alone.
This effect, known as a photoconductive response, can be used to make a
photodetector or light sensor, and because the two - dimensional nanosheets exhibited such a strong photoconductive response across a broad light spectrum and simultaneously resist chemical contamination, this research could lead to a revolution
in extreme low - light, high - resolution imaging products and applications, such as consumer and professional cameras and video cameras, for example.
Plastic Logic, the leader
in the development and industrialisation of flexible organic electronics, and ISORG, the pioneer
in organic
photodetectors and large area image sensors
in printed electronics, won the award for their revolutionary large area flexible image sensor.
ISORG is the leading and pioneer company
in organic
photodetectors and large area image sensors
in printed electronics.
They will apply their technology to other cell structures like thin and multi-crystalline cells and also test them
in devices like screens and
photodetectors.