About products – Creative https://demo9.thuythu.vn/dx Fri, 08 May 2026 04:40:15 +0000 en-US hourly 1 https://wordpress.org/?v=6.5 https://demo9.thuythu.vn/dx/wp-content/uploads/2024/03/Du-an-moi-13.png About products – Creative https://demo9.thuythu.vn/dx 32 32 Insight Report: Unveiling Growth Trajectories in the Semiconductor Contact Probes Industry. https://demo9.thuythu.vn/dx/insight-report-unveiling-growth-trajectories-in-the-semiconductor-contact-probes-industry/ https://demo9.thuythu.vn/dx/insight-report-unveiling-growth-trajectories-in-the-semiconductor-contact-probes-industry/#respond Mon, 18 Mar 2024 14:22:52 +0000 https://demo9.thuythu.vn/dx/?p=476 LPI’s latest research report, the “Semiconductor Contact Probes Industry Forecast,” delves into global sales analysis from 2022 and projects trends for 2023 to 2029. Providing a detailed breakdown by region, market sector, and sub-sector in US$ millions, the report assesses the Semiconductor Contact Probes market comprehensively.

Examining product segmentation, revenue, market share, company strategies, and M&A activities, this Insight Report offers a thorough analysis of the Semiconductor Contact Probes landscape. It scrutinizes global firms’ strategies, portfolios, market positions, and geographic influence, enhancing understanding of their roles in the burgeoning global market.

The report dissects market trends, drivers, and influencing factors that shape the Semiconductor Contact Probes industry, forecasting insights by type, application, geography, and market size to pinpoint emerging opportunities. Drawing on a detailed methodology and numerous market inputs, this forecast provides a nuanced view of the current state and future trajectory in the Semiconductor Contact Probes market.

Lastly, it presents an overview, market shares, growth opportunities, and key insights into product types, applications, major manufacturers, regions, and countries within the Semiconductor Contact Probes market.

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Researchers develop high-precision double slit for space spectrometer https://demo9.thuythu.vn/dx/researchers-develop-high-precision-double-slit-for-space-spectrometer-2/ https://demo9.thuythu.vn/dx/researchers-develop-high-precision-double-slit-for-space-spectrometer-2/#respond Mon, 18 Mar 2024 14:22:52 +0000 https://demo9.thuythu.vn/dx/?p=480 Lorem ipsum dolor sit amet, consectetur adipiscing elit. Quisque ornare venenatis metus, tincidunt facilisis odio rhoncus et. Vivamus eu condimentum diam, a bibendum dolor. In ut feugiat ligula, quis blandit neque.

ESA plans to launch its FLEX mission in 2025. The aim is to collect data on the Earth’s vegetation from space. For the spectrometer on board the satellite, researchers from the Fraunhofer Institute for Applied Optics and Precision Engineering IOF in Jena have developed and manufactured a double-slit assembly with exceptional accuracy as well as two high-precision mirrors. The double slit will be presented at SPIE Photonics West in San Francisco from January 30 to February 1.

Lorem ipsum dolor sit amet, consectetur adipiscing elit.
Lorem ipsum dolor sit amet, consectetur adipiscing elit.

How much light do plants emit and what can this light emission tell us about the health of plants? The ESA mission “FLuorescence Explorer Mission” (FLEX) will address this question from 2025. At the heart of the satellite will be the “Fluorescence Imaging Spectrometer” (FLORIS for short).

Unlike many other spectrometers, however, FLORIS does not work with a single light channel, but with two. “This means that it needs two optical slits through which the light can enter the instrument,” explains Falk Kemper. Kemper is a researcher at Fraunhofer IOF and heads the FLEX project at the institute. “To create these two channels, you need a high-precision arrangement of two slits, a so-called double slit. This is exactly what we developed and manufactured in Jena, together with high-precision mirrors for the spectrometer.”

Components for space spectrometers with exceptional accuracy

The special feature of the double-slit assembly is its exceptional precision: each slit of the double-slit assembly must be manufactured with an exact width of 85 (+/-1) micrometers, and this over a length of 44.15 millimeters. “Slits that are too wide or too narrow would have guided too much or too little light onto the detector, making it impossible to evaluate the light component of interest for the mission,” explains Kemper.

Special requirements also applied to the mirrors, which were manufactured in Jena and are intended to guide the light onto the detector inside the spectrometer: These had to have a roughness requirement of 0.3 nanometers rms (root mean square). “This roughly corresponds to the distance between one and two atoms,” explains Kemper. “The requirements were incredibly high and were at the limits of what was technically feasible.”

Lorem ipsum dolor sit amet, consectetur adipiscing elit.

The special feature of the double-slit assembly is its exceptional precision: each slit of the double-slit assembly must be manufactured with an exact width of 85 (+/-1) micrometers, and this over a length of 44.15 millimeters. “Slits that are too wide or too narrow would have guided too much or too little light onto the detector, making it impossible to evaluate the light component of interest for the mission,” explains Kemper.

Special requirements also applied to the mirrors, which were manufactured in Jena and are intended to guide the light onto the detector inside the spectrometer: These had to have a roughness requirement of 0.3 nanometers rms (root mean square). “This roughly corresponds to the distance between one and two atoms,” explains Kemper. “The requirements were incredibly high and were at the limits of what was technically feasible.”

Special lithographic structuring for silicon-based double slit

The double slit was manufactured on a silicon basis. A special lithographic process chain was developed at Fraunhofer IOF for production, in which lithographic structuring techniques were adapted for etching silicon wafers: “Our strategy was to mask the silicon wafers, develop them and wet etch them in a time-controlled manner,” says the project manager, explaining the process. “Due to the very high accuracies required, we had to go through numerous parameter iterations to get the production chain so stable that slits could be produced according to the requirements.”

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ESA’s tiny pinhole thruster is ready for production https://demo9.thuythu.vn/dx/esas-tiny-pinhole-thruster-is-ready-for-production-3/ https://demo9.thuythu.vn/dx/esas-tiny-pinhole-thruster-is-ready-for-production-3/#respond Mon, 18 Mar 2024 14:22:05 +0000 https://demo9.thuythu.vn/dx/?p=463 Lorem ipsum dolor sit amet, consectetur adipiscing elit. Quisque ornare venenatis metus, tincidunt facilisis odio rhoncus et. Vivamus eu condimentum diam, a bibendum dolor. In ut feugiat ligula, quis blandit neque.

ESA plans to launch its FLEX mission in 2025. The aim is to collect data on the Earth’s vegetation from space. For the spectrometer on board the satellite, researchers from the Fraunhofer Institute for Applied Optics and Precision Engineering IOF in Jena have developed and manufactured a double-slit assembly with exceptional accuracy as well as two high-precision mirrors. The double slit will be presented at SPIE Photonics West in San Francisco from January 30 to February 1.

Lorem ipsum dolor sit amet, consectetur adipiscing elit.
Lorem ipsum dolor sit amet, consectetur adipiscing elit.

How much light do plants emit and what can this light emission tell us about the health of plants? The ESA mission “FLuorescence Explorer Mission” (FLEX) will address this question from 2025. At the heart of the satellite will be the “Fluorescence Imaging Spectrometer” (FLORIS for short).

Unlike many other spectrometers, however, FLORIS does not work with a single light channel, but with two. “This means that it needs two optical slits through which the light can enter the instrument,” explains Falk Kemper. Kemper is a researcher at Fraunhofer IOF and heads the FLEX project at the institute. “To create these two channels, you need a high-precision arrangement of two slits, a so-called double slit. This is exactly what we developed and manufactured in Jena, together with high-precision mirrors for the spectrometer.”

Components for space spectrometers with exceptional accuracy

The special feature of the double-slit assembly is its exceptional precision: each slit of the double-slit assembly must be manufactured with an exact width of 85 (+/-1) micrometers, and this over a length of 44.15 millimeters. “Slits that are too wide or too narrow would have guided too much or too little light onto the detector, making it impossible to evaluate the light component of interest for the mission,” explains Kemper.

Special requirements also applied to the mirrors, which were manufactured in Jena and are intended to guide the light onto the detector inside the spectrometer: These had to have a roughness requirement of 0.3 nanometers rms (root mean square). “This roughly corresponds to the distance between one and two atoms,” explains Kemper. “The requirements were incredibly high and were at the limits of what was technically feasible.”

Lorem ipsum dolor sit amet, consectetur adipiscing elit.

The special feature of the double-slit assembly is its exceptional precision: each slit of the double-slit assembly must be manufactured with an exact width of 85 (+/-1) micrometers, and this over a length of 44.15 millimeters. “Slits that are too wide or too narrow would have guided too much or too little light onto the detector, making it impossible to evaluate the light component of interest for the mission,” explains Kemper.

Special requirements also applied to the mirrors, which were manufactured in Jena and are intended to guide the light onto the detector inside the spectrometer: These had to have a roughness requirement of 0.3 nanometers rms (root mean square). “This roughly corresponds to the distance between one and two atoms,” explains Kemper. “The requirements were incredibly high and were at the limits of what was technically feasible.”

Special lithographic structuring for silicon-based double slit

The double slit was manufactured on a silicon basis. A special lithographic process chain was developed at Fraunhofer IOF for production, in which lithographic structuring techniques were adapted for etching silicon wafers: “Our strategy was to mask the silicon wafers, develop them and wet etch them in a time-controlled manner,” says the project manager, explaining the process. “Due to the very high accuracies required, we had to go through numerous parameter iterations to get the production chain so stable that slits could be produced according to the requirements.”

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ESA’s tiny pinhole thruster is ready for production https://demo9.thuythu.vn/dx/esas-tiny-pinhole-thruster-is-ready-for-production-2/ https://demo9.thuythu.vn/dx/esas-tiny-pinhole-thruster-is-ready-for-production-2/#respond Mon, 18 Mar 2024 14:21:20 +0000 https://demo9.thuythu.vn/dx/?p=464 Lorem ipsum dolor sit amet, consectetur adipiscing elit. Quisque ornare venenatis metus, tincidunt facilisis odio rhoncus et. Vivamus eu condimentum diam, a bibendum dolor. In ut feugiat ligula, quis blandit neque.

ESA plans to launch its FLEX mission in 2025. The aim is to collect data on the Earth’s vegetation from space. For the spectrometer on board the satellite, researchers from the Fraunhofer Institute for Applied Optics and Precision Engineering IOF in Jena have developed and manufactured a double-slit assembly with exceptional accuracy as well as two high-precision mirrors. The double slit will be presented at SPIE Photonics West in San Francisco from January 30 to February 1.

Lorem ipsum dolor sit amet, consectetur adipiscing elit.
Lorem ipsum dolor sit amet, consectetur adipiscing elit.

How much light do plants emit and what can this light emission tell us about the health of plants? The ESA mission “FLuorescence Explorer Mission” (FLEX) will address this question from 2025. At the heart of the satellite will be the “Fluorescence Imaging Spectrometer” (FLORIS for short).

Unlike many other spectrometers, however, FLORIS does not work with a single light channel, but with two. “This means that it needs two optical slits through which the light can enter the instrument,” explains Falk Kemper. Kemper is a researcher at Fraunhofer IOF and heads the FLEX project at the institute. “To create these two channels, you need a high-precision arrangement of two slits, a so-called double slit. This is exactly what we developed and manufactured in Jena, together with high-precision mirrors for the spectrometer.”

Components for space spectrometers with exceptional accuracy

The special feature of the double-slit assembly is its exceptional precision: each slit of the double-slit assembly must be manufactured with an exact width of 85 (+/-1) micrometers, and this over a length of 44.15 millimeters. “Slits that are too wide or too narrow would have guided too much or too little light onto the detector, making it impossible to evaluate the light component of interest for the mission,” explains Kemper.

Special requirements also applied to the mirrors, which were manufactured in Jena and are intended to guide the light onto the detector inside the spectrometer: These had to have a roughness requirement of 0.3 nanometers rms (root mean square). “This roughly corresponds to the distance between one and two atoms,” explains Kemper. “The requirements were incredibly high and were at the limits of what was technically feasible.”

Lorem ipsum dolor sit amet, consectetur adipiscing elit.

The special feature of the double-slit assembly is its exceptional precision: each slit of the double-slit assembly must be manufactured with an exact width of 85 (+/-1) micrometers, and this over a length of 44.15 millimeters. “Slits that are too wide or too narrow would have guided too much or too little light onto the detector, making it impossible to evaluate the light component of interest for the mission,” explains Kemper.

Special requirements also applied to the mirrors, which were manufactured in Jena and are intended to guide the light onto the detector inside the spectrometer: These had to have a roughness requirement of 0.3 nanometers rms (root mean square). “This roughly corresponds to the distance between one and two atoms,” explains Kemper. “The requirements were incredibly high and were at the limits of what was technically feasible.”

Special lithographic structuring for silicon-based double slit

The double slit was manufactured on a silicon basis. A special lithographic process chain was developed at Fraunhofer IOF for production, in which lithographic structuring techniques were adapted for etching silicon wafers: “Our strategy was to mask the silicon wafers, develop them and wet etch them in a time-controlled manner,” says the project manager, explaining the process. “Due to the very high accuracies required, we had to go through numerous parameter iterations to get the production chain so stable that slits could be produced according to the requirements.”

]]>
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ESA’s tiny pinhole thruster is ready for production https://demo9.thuythu.vn/dx/esas-tiny-pinhole-thruster-is-ready-for-production/ https://demo9.thuythu.vn/dx/esas-tiny-pinhole-thruster-is-ready-for-production/#respond Mon, 18 Mar 2024 14:20:07 +0000 https://demo9.thuythu.vn/dx/?p=465 Lorem ipsum dolor sit amet, consectetur adipiscing elit. Quisque ornare venenatis metus, tincidunt facilisis odio rhoncus et. Vivamus eu condimentum diam, a bibendum dolor. In ut feugiat ligula, quis blandit neque.

ESA plans to launch its FLEX mission in 2025. The aim is to collect data on the Earth’s vegetation from space. For the spectrometer on board the satellite, researchers from the Fraunhofer Institute for Applied Optics and Precision Engineering IOF in Jena have developed and manufactured a double-slit assembly with exceptional accuracy as well as two high-precision mirrors. The double slit will be presented at SPIE Photonics West in San Francisco from January 30 to February 1.

Lorem ipsum dolor sit amet, consectetur adipiscing elit.
Lorem ipsum dolor sit amet, consectetur adipiscing elit.

How much light do plants emit and what can this light emission tell us about the health of plants? The ESA mission “FLuorescence Explorer Mission” (FLEX) will address this question from 2025. At the heart of the satellite will be the “Fluorescence Imaging Spectrometer” (FLORIS for short).

Unlike many other spectrometers, however, FLORIS does not work with a single light channel, but with two. “This means that it needs two optical slits through which the light can enter the instrument,” explains Falk Kemper. Kemper is a researcher at Fraunhofer IOF and heads the FLEX project at the institute. “To create these two channels, you need a high-precision arrangement of two slits, a so-called double slit. This is exactly what we developed and manufactured in Jena, together with high-precision mirrors for the spectrometer.”

Components for space spectrometers with exceptional accuracy

The special feature of the double-slit assembly is its exceptional precision: each slit of the double-slit assembly must be manufactured with an exact width of 85 (+/-1) micrometers, and this over a length of 44.15 millimeters. “Slits that are too wide or too narrow would have guided too much or too little light onto the detector, making it impossible to evaluate the light component of interest for the mission,” explains Kemper.

Special requirements also applied to the mirrors, which were manufactured in Jena and are intended to guide the light onto the detector inside the spectrometer: These had to have a roughness requirement of 0.3 nanometers rms (root mean square). “This roughly corresponds to the distance between one and two atoms,” explains Kemper. “The requirements were incredibly high and were at the limits of what was technically feasible.”

Lorem ipsum dolor sit amet, consectetur adipiscing elit.

The special feature of the double-slit assembly is its exceptional precision: each slit of the double-slit assembly must be manufactured with an exact width of 85 (+/-1) micrometers, and this over a length of 44.15 millimeters. “Slits that are too wide or too narrow would have guided too much or too little light onto the detector, making it impossible to evaluate the light component of interest for the mission,” explains Kemper.

Special requirements also applied to the mirrors, which were manufactured in Jena and are intended to guide the light onto the detector inside the spectrometer: These had to have a roughness requirement of 0.3 nanometers rms (root mean square). “This roughly corresponds to the distance between one and two atoms,” explains Kemper. “The requirements were incredibly high and were at the limits of what was technically feasible.”

Special lithographic structuring for silicon-based double slit

The double slit was manufactured on a silicon basis. A special lithographic process chain was developed at Fraunhofer IOF for production, in which lithographic structuring techniques were adapted for etching silicon wafers: “Our strategy was to mask the silicon wafers, develop them and wet etch them in a time-controlled manner,” says the project manager, explaining the process. “Due to the very high accuracies required, we had to go through numerous parameter iterations to get the production chain so stable that slits could be produced according to the requirements.”

]]>
https://demo9.thuythu.vn/dx/esas-tiny-pinhole-thruster-is-ready-for-production/feed/ 0
Researchers develop high-precision double slit for space spectrometer https://demo9.thuythu.vn/dx/researchers-develop-high-precision-double-slit-for-space-spectrometer/ https://demo9.thuythu.vn/dx/researchers-develop-high-precision-double-slit-for-space-spectrometer/#respond Mon, 18 Mar 2024 14:16:03 +0000 https://demo9.thuythu.vn/dx/?p=457 Lorem ipsum dolor sit amet, consectetur adipiscing elit. Quisque ornare venenatis metus, tincidunt facilisis odio rhoncus et. Vivamus eu condimentum diam, a bibendum dolor. In ut feugiat ligula, quis blandit neque.

ESA plans to launch its FLEX mission in 2025. The aim is to collect data on the Earth’s vegetation from space. For the spectrometer on board the satellite, researchers from the Fraunhofer Institute for Applied Optics and Precision Engineering IOF in Jena have developed and manufactured a double-slit assembly with exceptional accuracy as well as two high-precision mirrors. The double slit will be presented at SPIE Photonics West in San Francisco from January 30 to February 1.

Lorem ipsum dolor sit amet, consectetur adipiscing elit.
Lorem ipsum dolor sit amet, consectetur adipiscing elit.

How much light do plants emit and what can this light emission tell us about the health of plants? The ESA mission “FLuorescence Explorer Mission” (FLEX) will address this question from 2025. At the heart of the satellite will be the “Fluorescence Imaging Spectrometer” (FLORIS for short).

Unlike many other spectrometers, however, FLORIS does not work with a single light channel, but with two. “This means that it needs two optical slits through which the light can enter the instrument,” explains Falk Kemper. Kemper is a researcher at Fraunhofer IOF and heads the FLEX project at the institute. “To create these two channels, you need a high-precision arrangement of two slits, a so-called double slit. This is exactly what we developed and manufactured in Jena, together with high-precision mirrors for the spectrometer.”

Components for space spectrometers with exceptional accuracy

The special feature of the double-slit assembly is its exceptional precision: each slit of the double-slit assembly must be manufactured with an exact width of 85 (+/-1) micrometers, and this over a length of 44.15 millimeters. “Slits that are too wide or too narrow would have guided too much or too little light onto the detector, making it impossible to evaluate the light component of interest for the mission,” explains Kemper.

Special requirements also applied to the mirrors, which were manufactured in Jena and are intended to guide the light onto the detector inside the spectrometer: These had to have a roughness requirement of 0.3 nanometers rms (root mean square). “This roughly corresponds to the distance between one and two atoms,” explains Kemper. “The requirements were incredibly high and were at the limits of what was technically feasible.”

Lorem ipsum dolor sit amet, consectetur adipiscing elit.

The special feature of the double-slit assembly is its exceptional precision: each slit of the double-slit assembly must be manufactured with an exact width of 85 (+/-1) micrometers, and this over a length of 44.15 millimeters. “Slits that are too wide or too narrow would have guided too much or too little light onto the detector, making it impossible to evaluate the light component of interest for the mission,” explains Kemper.

Special requirements also applied to the mirrors, which were manufactured in Jena and are intended to guide the light onto the detector inside the spectrometer: These had to have a roughness requirement of 0.3 nanometers rms (root mean square). “This roughly corresponds to the distance between one and two atoms,” explains Kemper. “The requirements were incredibly high and were at the limits of what was technically feasible.”

Special lithographic structuring for silicon-based double slit

The double slit was manufactured on a silicon basis. A special lithographic process chain was developed at Fraunhofer IOF for production, in which lithographic structuring techniques were adapted for etching silicon wafers: “Our strategy was to mask the silicon wafers, develop them and wet etch them in a time-controlled manner,” says the project manager, explaining the process. “Due to the very high accuracies required, we had to go through numerous parameter iterations to get the production chain so stable that slits could be produced according to the requirements.”

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