#Photonic Sensors | Explore Tumblr Posts and Blogs

mindblowingscience · 10 months

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It was confirmed that the eco-friendly quantum dot photonic sensor developed through joint research with Professor Moon-kee Choi's research team at the Department of New Materials Engineering, Ulsan National Institute of Science and Technology (UNIST) and Professor Dae-hyeong Kim's research team at the Department of Chemical and Biomolecular Engineering, Seoul National University (President Hong-lim Ryu) can stably measure light signals without any external power source, due to the photovoltaic effect. The joint research team has also produced a skin-attachable ultra-thin pulse sensor based on this photosensor, and introduced the wearable pulse sensor that can stably acquire pulse signals despite different deformations. The work is published in the journal ACS Nano.

#Science #Materials Engineering #Nanomaterials #Medicine #Chemistry #Photonic Sensors

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star-ar512 · 1 month

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#:))))))#that is NOT snow it's what happens when radiation particles/photons hit the camera sensor!!!!!!#google it it's pretty neat. only just a handful of examples tho #this is the funniest shit ever to me. peak humor #like the fucking way this is even tied to the plot and radiation poisoning is crazy #the way this fucking fits for the memory ending. ariane does not remember how radiation fit her....#this is an inside joke from another fandom actually. there was a sentence from this other game that said #“i knew x suited you best!” and i put radiation instead of x. and made the character this sentence was about glow green #signalis #signalis spoilers #ariane yeong #signalis ariane #signalis elster #lstr 512 #signalis meme

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materialsscienceandengineering · 9 months

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Researchers turn a small photonic chip into a functional temperature sensor

Similar to electronics, photonic circuits can be miniaturized onto a chip, leading to a so-called photonic integrated circuit (PIC). Although these developments are more recent than for electronics, this field is rapidly evolving. One of the main issues, however, is to turn such a PIC into a functional device. This requires optical packaging and coupling strategies to bring light into and get light out of the PIC. For example, for optical communication, a connection needs to be made with optical fibers, which then transport the light pulses over long distances. Alternatively, the PIC could house an optical sensor which requires external light for its readout. Since light on a PIC propagates in very tiny channels with sub-micrometer dimensions, called waveguides, this optical coupling is very challenging and requires careful alignment between the PIC and external components. The optical components are also very fragile so proper packaging of the PIC is vital to result in a reliable device.

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semiconductorhub · 2 months

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Photonic Sensor Market : In-depth Analysis by Trends, Dynamics, Drivers, Challenges and Growth Factors by 2032

The Photonic Sensor Market is witnessing substantial growth, driven by the rising need for high-performance sensing solutions across various industries such as healthcare, telecommunications, automotive, and environmental monitoring. The market research report provides an in-depth analysis of key factors influencing the industry, including emerging trends, growth opportunities, challenges, and technological advancements.

Photonic sensors are vital for modern applications, as they use light to detect and measure physical phenomena. Their ability to deliver high sensitivity and accuracy is essential for sectors where precision is critical. The growing demand for real-time data and the expansion of smart technologies like 5G and the Internet of Things (IoT) are significantly propelling the adoption of photonic sensors.

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Competitive Landscape

The competitive landscape analysis highlights key players who dominate the photonic sensor market. These companies are leading innovation and consistently developing advanced products to meet the industry's increasing demands. The report provides insights into their market share, product portfolios, financial performance, and strategic initiatives. Major companies in the photonic sensor industry include:

BK Technologies Corporation

Hytera Communications Corporation Ltd

Toshiba Corporation

Prime Photonics

Banpil Photonics, Inc

L3 Harris

Motorola Solutions

omnisys - thales group

General Electric Company

NP Photonics

Oxsensis

BAE Systems plc

General Dynamics Corporation

ICOM Incorporation

Samsung Electronics

Leonardo S.R.L.

MCS Digital

Intevac, Inc.

Mitsubishi Electric Corporation

Market Segmentation

To provide a clearer picture of market dynamics and growth potential, the photonic sensor market can be segmented based on various criteria, including:

By Type

Fibre optics photonic sensor

Biphotonic sensor

Image photonics sensor

By Audience

Research Consultancy

Technology Investor

Sensor Manufacturer

Government Organisations

System Integrators

By End-Users

Oiland Gas

Automotive

Healthcare

Transport

Consumer Electronics

Energy

Industrial Sector

Regional Insights

An in-depth regional analysis indicates that North America is expected to lead the photonic sensor market, thanks to its advanced technological infrastructure and significant investments in research and development. Europe and Asia-Pacific are also set to experience substantial growth, fueled by increasing demand for smart technologies and the expansion of industrial applications.

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Key Questions Addressed

What are the primary factors driving growth in the photonic sensor market?

Who are the major competitors, and what strategies are they employing to enhance their market share?

How are technological advancements shaping the future of photonic sensor solutions?

What regional trends are influencing market dynamics in the photonic sensor industry?

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#Photonic Sensor Market #Photonic Sensor Market Size #Photonic Sensor Market Share #Photonic Sensor Market Growth #Photonic Sensor Market Analysis

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electronalytics · 1 year

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Photonic Sensors and Detectors Market Witness High Demand During by 2032

Photonic sensors and detectors are devices that utilize the principles of photonics, the science and technology of generating, detecting, and manipulating light, to measure and detect various physical quantities or phenomena. These devices are widely used in a range of applications, including telecommunications, environmental monitoring, biomedical sensing, industrial process control, and scientific research.

The market for photonic sensors and detectors has been growing steadily in recent years, driven by the increasing demand for advanced sensing and detection technologies in various industries. Photonics has emerged as a key enabling technology in sectors such as telecommunications, healthcare, aerospace, defence, and industrial automation, among others. While it is difficult to provide precise market figures, I can give you a general overview of the photonic sensors and detectors market.

The global photonic sensors and detectors market has witnessed significant growth and is expected to continue expanding. Factors contributing to market growth include advancements in sensor technologies, increasing adoption of Internet of Things (IoT) devices, rising demand for energy-efficient solutions, and the growing need for real-time data monitoring and analysis.

Demand for Photonic Sensors and Detectors Market is projected to surge at a healthy CAGR of 8.2% between 2022 and 2032.

Here are some commonly used types of photonic sensors and detectors:

Photodiodes: Photodiodes are the most fundamental and widely used photonic detectors. They are semiconductor devices that convert light energy into electrical current. Photodiodes are employed in many applications, including light intensity measurement, optical communication, and presence detection.

Phototransistors: Phototransistors are similar to photodiodes, but they provide current amplification. They are often used when higher sensitivity or gain is required in light detection applications.

Photomultiplier Tubes (PMTs): PMTs are highly sensitive detectors that can detect low levels of light. They consist of a photocathode, electron multiplier stages, and an anode. PMTs are commonly used in applications such as scientific research, fluorescence spectroscopy, and nuclear medicine.

Avalanche Photodiodes (APDs): APDs are photodiodes that operate in avalanche breakdown mode, providing internal amplification of the photocurrent. They offer higher sensitivity and lower noise compared to regular photodiodes, making them suitable for low-light-level detection in applications like lidar, optical communication, and optical tomography.

Fiber Optic Sensors: Fibre optic sensors utilize optical fibers to transmit and detect light. They can be based on various principles, such as intensity modulation, phase modulation, or interferometry, to measure physical parameters like temperature, strain, pressure, and chemical composition. Fiber optic sensors are widely used in structural monitoring, oil and gas industry, and biomedical sensing.

Interferometry Sensors: Interferometry sensors exploit the interference of light waves to measure various physical quantities. Examples include fiber optic interferometers used for measuring strain, temperature, and vibration, as well as optical interferometers used in precision metrology and gravitational wave detection.

Spectrometers: Spectrometers are used to analyse the composition of light or electromagnetic radiation. They can be based on different principles, such as diffraction grating or interference filters, and are employed in applications like spectroscopy, chemical analysis, and astronomy.

These are just a few examples of photonic sensors and detectors. The field of photonics is vast, and there are numerous other specialized devices and technologies used for specific applications.

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Market Segmentations:

Global Photonic Sensors and Detectors Market: By Company • Hamamatsu Photonics • Omron • ON Semiconductor • Samsung • Sony Corporation • Keyence • Pepperl+Fuchs • Prime Photonics • Banpil Photonics • NP Photonics Global Photonic Sensors and Detectors Market: By Type • Fibre Optic Sensors • Biophotonic Sensors • Image Sensors • Others Global Photonic Sensors and Detectors Market: By Application • Defence & Security • Medical & Healthcare • Chemicals & Petrochemicals • Consumer Electronics • Others Global Photonic Sensors and Detectors Market: Regional Analysis All the regional segmentation has been studied based on recent and future trends, and the market is forecasted throughout the prediction period. The countries covered in the regional analysis of the Global Photonic Sensors and Detectors market report are U.S., Canada, and Mexico in North America, Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe in Europe, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), and Argentina, Brazil, and Rest of South America as part of South America.

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#Photonic Sensors and Detectors Market #global Photonic Sensors and Detectors Market

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infinityinsights · 1 year

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#High Speed Photonic Sensor Market

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roshanipawar · 2 years

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#US Photonic Sensors Market

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todays-xkcd · 3 hours

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Under quantum tax law, photons sent through a beamsplitter don't actually choose which path they took, or incur a tax burden, until their wavefunction collapses when the power is sold.

Beamsplitters [Explained]

Transcript

[Cross section of a telescope with some parts of the image darkened to represent the path of light, with portions where the light would be more concentrated being darker]

[Labels with arrows as they appear left to right, top to bottom:] Incoming Light Primary Mirror Secondary Mirror Beamsplitter Sensor Secret Solar Panel Power Sold To Grid

[Caption below the panel:] Astronomy News: The International Astronomical Union has finally banned beamsplitters, optical devices used by scientists to embezzle light from their instruments.

#xkcd #xkcd 2991 #beamsplitters #webcomics

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thehydromancer · 1 month

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The Evace (Eee Vee Ace) class light cruiser, despite its relatively small size, is the largest dedicated warship, capital or otherwise, produced by the Galatea Shipyards of the First Great Expansion colony system, Acis. The light cruiser isn't the most imposing capital ship, but its the pride and joy of the shipyards and a thorn in the side of Dramstellar whose profit margins are cut into by on the regular. At distance, the Evace class's profile could easily be mistaken for a large frigate, and the triple engine configuration doesn't help. These engines are powerful for their compact size however, and rival more traditional, larger capital ship engines. The engines serve as an excellent analog for the class overall in fact; compact, dense, and bristling with energy. Most of that energy is expelled in an ever expanding sphere as electrons, photons, and other more exotic forms through the vessel's plentiful AESAs, LADAR, and other more exotic sensors. Far less of that energy is concentrated into accelerating missiles through the dual bow mounted casaba howitzers, though the return on investment is truly impressive when the individual missiles detonate their internal fusion bottles to pump a shotgun blast of ludicrous speed particles in a target at distance. The four PDGs are almost mundane by comparison to the rest of the ship systems, leading to rumors that Acis may be reverse engineering Ijad technology in direct violation of Ionian law. Naturally, no such evidence has ever arisen. Perhaps more concerning are the number that have appeared in recent years in the private fleets of more... erratic megacorps, including two in the forces of the Krewstara Consortium who have become outright free colonists opposed directly to Dramstellar's interests. The more savvy naval analysts suspect the Evace class represents not a smaller ship punching above its weight class, but potentially the first in a new wave of miniaturized, yet no less lethal, purpose built ships of war.

#lego #mf0 #mfz #mobile frame zero #bricklink #lego studio #digital art #spaceship #starship #imaginary starships #Intercept Orbit #lego ship

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goldkirk · 5 months

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cat w/prism light, photons on light sensor, 2024

#my photos #Sammi

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mindblowingscience · 5 months

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Finding new ways to slow fleeting waves of light or even stop them in their tracks could lead to more advanced photonic devices, such as lasers, LED displays, fiber-optics, and sensors. In a cunning trap made from a silicon crystal tweaked to behave as if it's deformed, scientists have found a flexible new way to make light waves stand absolutely still.

#Science #Materials Science #Physics #Quantum Mechanics #Landau Levels #Light #Electrons

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5hrine · 10 months

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Borrowed Wings

C/Ws: NSFW

You fly so far on borrowed wings.

I have found many things which live drifting within me, but none so beautiful as you. None who examine me so closely, who have deemed me worth more than just passing through. I know, now, what it is to be admired rather than only seen, and more, what it is to be understood, pursued. I feel the trace of photons from your sensors, like fingers upon my skin. I did not know the concept of “love” before your touch, before the heat of your engines, before seeing the way you float within me and learning who you really are.

You have taught me so many of your words through pulses of light, always so… frustratingly brief. It took me some time to find the pattern of your language in the bursts. It was only when a copper-rich part of me felt the vibrations that I began to understand, that you speak with sound. I have learned your word for my kind - nebula. I like this name. The way it courses through me, a resonant hum, quiet but undeniably present.

You call my children stars. They like this name, too.

You have spent so long and so much examining me, probing me, trying to learn of me, why must I be kept from returning the favor? I wish so terribly to thread my gaseous form between the plates of your hull, into your life support system, past your farms of algae, to find the soft truth of you inside. I would navigate the space between the teeth of your zippers, the hook-and-loop of your outer shell, just so that I could touch you as you have me. Many dozens of particulate-fingers tracing along your every pore, cold and hot all at once, painting your visor in my brilliant colors.

Would you breathe of me, if I asked you? Would you let me that deep inside? How would I taste to you, I wonder? Would you like the effervescence of me on your tongue? Would you let me strip off your shell, to let me see you wholly, so that I can mimic your shape, arms and legs and fingers and hips of stardust, ready for you to touch, ready to touch you, to feel you, to know you.

I stall your engines to let you drift in my currents. I intertwine my newfound fingers with your own and lead you to your observation deck. I show you beautiful vistas of me, where my brilliance stains space. I help you to avoid my most dangerous places, where the radiation or gravity would hurt you. I bring your hand to my breast, my back arching at your touch. Showing you, intimately, where stars are born. Pressing my lips to your hair, stroking it gently as your lips do their work.

I would let you glimpse the surviving climax of my supernova.

I would trace my fingers over your neck, your cheek, your ears.

I would help you understand that yes, I am space dust. Yes, I am the crucible of stars. Yes, I am alive.

#story #sci-fi #love #writing #eldritch #nebulas #monstergirl #monsterfucking nsft

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materialsscienceandengineering · 8 months

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Geometric phase-encoded liquid crystal optical sensing

Sensing technology, integral to environmental monitoring, data acquisition, and precision data processing, is evolving rapidly. Researchers are at the forefront of developing swift, accessible, and cost-effective sensors. Among these innovations, cholesteric liquid crystals (CLCs) in stimulus-responsive photonic crystals exhibit exceptional promise. Their unique helical structure and photonic properties enable the production of vivid, power-independent structural colors, paving the way for advanced visual analysis tools. However, a significant challenge hinders CLC's broader application in optical sensing: Although they visibly alter color in response to stimuli, accurately gauging these changes necessitates costly spectroscopic equipment, constraining their practical deployment. Responding to the growing need for compact and planar optical elements, researchers have investigated Pancharatnam-Berry geometric phases, derived from light's spin-orbit interactions. Recent developments include integrating the geometric phase into reflected light via CLC helical superstructures, leading to novel photonic applications.