Punk Technician aesthetic?

Dinmore's Leading Rug Cleaning Company

Trust the leading rug cleaning company in Dinmore for all your rug cleaning needs. Our team of expert cleaners offers professional services for pristine and spotless rugs. Contact us 0480032510 today for reliable and efficient cleaning services.

GWSR Winchcombe Gloucestershire 10th August 2023 por loose_grip_99 Por Flickr: Firing BR Standard 2 2-6-0 78019 we were held in Winchcombe station to allow GWR Manor 4-6-0 7820 Dinmore Manor to clear the single line section to Toddington.

AMBER releases its first results

AMBER releases its first results The AMBER experiment in CERN's North Area (Image: CERN) Last week, at the biennial ICHEP conference, the AMBER experiment presented results from its first data-taking period. Taken in 2023, these results show preliminary plots of the antiproton’s production cross section – the probability that antiprotons are produced when a beam of protons interacts with a helium target. Knowing more about how antiprotons are produced will help improve the sensitivity of searches for dark matter.  While physicists can observe the effect of dark matter on the Universe, they still cannot “see” it directly, as it does not react with the electronmagnetic force. This means they still do not know what it is, despite the fact that it accounts for around a quarter of the Universe’s mass. Space-based experiments like AMS look for clues about dark matter by collecting data on cosmic rays – high-energy particles from outer space that hit the Earth’s atmosphere. Among the cosmic rays that AMS studies are antiprotons, which do not originate from primary cosmic rays (caused by stars or other astrophysical phenomena) but are produced when primary cosmic rays interact with the interstellar medium. Recently, AMS found that some of the numbers that they have observed of antiproton cosmic rays are in excess of the prediction. This excess may be due to statistical uncertainty or it could be from an unknown source, such as dark matter. This has led physicists to believe that some antiprotons may be produced by dark matter. This is where AMBER comes in. “If you have a standard way of producing an antiproton and you want to disentangle this standard way from an exotic way, you need to know its standard production very well,” says Davide Giordano, a researcher with the AMBER experiment. “By studying its production, we are reducing the uncertainty about the expected background of antiprotons in space. If there is any exotic signal, we will be more sensitive to it.” Located where the former COMPASS experiment used to be, AMBER is a new facility that uses a secondary beam from the SPS and fires it at an interchangeable fixed target in CERN’s North Area. The first phase of its physics programme consists of three experiments: the study of the antimatter production cross section, the measurement of the proton radius and the use of particular physics processes to study how hadrons get their mass. For last year’s data taking, the target was liquid helium, and the resulting particle tracks were recorded by its spectrometer. “One of the most common reactions that produce antiprotons in space is the reaction between protons and helium,” continues Giordano. “Before AMBER, there was no experimental data on this reaction in the energy range relevant to AMS.”  Although preliminary, the results presented at ICHEP showed that AMBER is in good shape, with very low statistical uncertainties. “We’ve already taken data in 2024 using hydrogen and deuterium as our targets,” said Giordano. AMBER hopes to use the hydrogen data to study proton—proton collisions, the most common reaction behind the production of antiprotons in space. The deuterium data will allow physicists to compare the rate of antiproton production in proton—proton collisions with that of proton—neutron collisions, and thus to investigate the poorly known production asymmetry. AMBER joins a number of experiments that are helping AMS in its cosmic-ray data collection. Find out more about LHCb’s results for antiprotons produced in proton—helium collisions in 2017 in this article, and ALICE’s similar study of antihelium-3 cosmic rays in this press release. Find out more about AMBER's results here. ndinmore Fri, 08/02/2024 - 11:12 Byline Naomi Dinmore Publication Date Fri, 08/02/2024 - 12:00 https://home.cern/news/news/physics/amber-releases-its-first-results (Source of the original content)

Day-to-night: Contemplation

This was a shot taken back in 2019 when I was asked to carry out a photoshoot at the Dinmore Estate in Herefordshire. The lone figure is actually one of the estate workers and was probably just trying to keep warm, rather than contemplating life in general. The image has been post-processed in Adobe Lightroom and Photoshop.

View On WordPress

file: "Oliver Cromwell" near Hope under Dinmore

⚡️ | Are you searching for reliable, effective SEO and web design services in Dinmore? Look no further than AIO Spark! Our team of experienced specialists can help take your online presence to the next level, driving traffic to your website and boosting your business’s visibility in the local area. Our services include: SEO: We conduct comprehensive... | Read more #AIOsparkHQ #aiospark 👇🤩✨ Top-notch SEO and Web Design Services in Dinmore: https://www.aiospark.com/top-notch-seo-and-web-design-services-in-dinmore?utm_source=Tumblr&utm_medium=fs-share&utm_campaign=auto-social

Random Real Thoroughbred: VERY HILLY

VERY HILLY is a gray mare born in Argentina in 1974. By VERVAIN out of DINMORE HILL. Link to their pedigreequery page: https://www.pedigreequery.com/very+hilly

UN Hobbled by Junta and Under Pressure Over Myanmar Aid Crisis — Global Issues

Rohingya IDPs confined to a Sittwe camp in Rakhine State wait for international intervention. More than 1.5 million people are displaced in Myanmar. Credit: Sara Perria/IPS by Guy Dinmore, Thompson Chau (bangkok) Tuesday, February 21, 2023 Inter Press Service BANGKOK, Feb 21 (IPS) – Nearly 18 million people – about one-third of Myanmar’s population – need humanitarian aid this year because of…

View On WordPress

UN Hobbled by Junta and Under Pressure Over Myanmar Aid Crisis — Global Issues

Rohingya IDPs confined to a Sittwe camp in Rakhine State wait for international intervention. More than 1.5 million people are displaced in Myanmar. Credit: Sara Perria/IPS by Guy Dinmore, Thompson Chau (bangkok) Tuesday, February 21, 2023 Inter Press Service BANGKOK, Feb 21 (IPS) – Nearly 18 million people – about one-third of Myanmar’s population – need humanitarian aid this year because of…

View On WordPress

UN Hobbled by Junta and Under Pressure Over Myanmar Aid Crisis — Global Issues

Rohingya IDPs confined to a Sittwe camp in Rakhine State wait for international intervention. More than 1.5 million people are displaced in Myanmar. Credit: Sara Perria/IPS by Guy Dinmore, Thompson Chau (bangkok) Tuesday, February 21, 2023 Inter Press Service BANGKOK, Feb 21 (IPS) – Nearly 18 million people – about one-third of Myanmar’s population – need humanitarian aid this year because of…

View On WordPress

UN Hobbled by Junta and Under Pressure Over Myanmar Aid Crisis — Global Issues

Rohingya IDPs confined to a Sittwe camp in Rakhine State wait for international intervention. More than 1.5 million people are displaced in Myanmar. Credit: Sara Perria/IPS by Guy Dinmore, Thompson Chau (bangkok) Tuesday, February 21, 2023 Inter Press Service BANGKOK, Feb 21 (IPS) – Nearly 18 million people – about one-third of Myanmar’s population – need humanitarian aid this year because of…

View On WordPress

Hayles Abbey Halt por David Chandler Por Flickr: 7820 'Dinmore Manor' works past Hayles Abbey Halt, with the delayed 1731 Toddington to Cheltenham RC on Saturday afternoon of the gala. If it had been on time then the shadows from the trees would probably not have been creeping over the line.

AMBER releases its first results

AMBER releases its first results The AMBER experiment in CERN's North Area (Image: CERN) Last week, at the biennial ICHEP conference, the AMBER experiment presented results from its first data-taking period. Taken in 2023, these results show preliminary plots of the antiproton’s production cross section – the probability that antiprotons are produced when a beam of protons interacts with a helium target. Knowing more about how antiprotons are produced will help improve the sensitivity of searches for dark matter.  While physicists can observe the effect of dark matter on the Universe, they still cannot “see” it directly, as it does not react with the electronmagnetic force. This means they still do not know what it is, despite the fact that it accounts for around a quarter of the Universe’s mass. Space-based experiments like AMS look for clues about dark matter by collecting data on cosmic rays – high-energy particles from outer space that hit the Earth’s atmosphere. Among the cosmic rays that AMS studies are antiprotons, which do not originate from primary cosmic rays (caused by stars or other astrophysical phenomena) but are produced when primary cosmic rays interact with the interstellar medium. Recently, AMS found that some of the numbers that they have observed of antiproton cosmic rays are in excess of the prediction. This excess may be due to statistical uncertainty or it could be from an unknown source, such as dark matter. This has led physicists to believe that some antiprotons may be produced by dark matter. This is where AMBER comes in. “If you have a standard way of producing an antiproton and you want to disentangle this standard way from an exotic way, you need to know its standard production very well,” says Davide Giordano, a researcher with the AMBER experiment. “By studying its production, we are reducing the uncertainty about the expected background of antiprotons in space. If there is any exotic signal, we will be more sensitive to it.” Located where the former COMPASS experiment used to be, AMBER is a new facility that uses a secondary beam from the SPS and fires it at an interchangeable fixed target in CERN’s North Area. The first phase of its physics programme consists of three experiments: the study of the antimatter production cross section, the measurement of the proton radius and the use of particular physics processes to study how hadrons get their mass. For last year’s data taking, the target was liquid helium, and the resulting particle tracks were recorded by its spectrometer. “One of the most common reactions that produce antiprotons in space is the reaction between protons and helium,” continues Giordano. “Before AMBER, there was no experimental data on this reaction in the energy range relevant to AMS.”  Although preliminary, the results presented at ICHEP showed that AMBER is in good shape, with very low statistical uncertainties. “We’ve already taken data in 2024 using hydrogen and deuterium as our targets,” said Giordano. AMBER hopes to use the hydrogen data to study proton—proton collisions, the most common reaction behind the production of antiprotons in space. The deuterium data will allow physicists to compare the rate of antiproton production in proton—proton collisions with that of proton—neutron collisions, and thus to investigate the poorly known production asymmetry. AMBER joins a number of experiments that are helping AMS in its cosmic-ray data collection. Find out more about LHCb’s results for antiprotons produced in proton—helium collisions in 2017 in this article, and ALICE’s similar study of antihelium-3 cosmic rays in this press release. Find out more about AMBER's results here. ndinmore Fri, 08/02/2024 - 11:12 Byline Naomi Dinmore Publication Date Fri, 08/02/2024 - 12:00 https://home.web.cern.ch/news/news/physics/amber-releases-its-first-results (Source of the original content)

UN Hobbled by Junta and Under Pressure Over Myanmar Aid Crisis — Global Issues

Rohingya IDPs confined to a Sittwe camp in Rakhine State wait for international intervention. More than 1.5 million people are displaced in Myanmar. Credit: Sara Perria/IPS by Guy Dinmore, Thompson Chau (bangkok) Tuesday, February 21, 2023 Inter Press Service BANGKOK, Feb 21 (IPS) – Nearly 18 million people – about one-third of Myanmar’s population – need humanitarian aid this year because of…

View On WordPress

UN Hobbled by Junta and Under Pressure Over Myanmar Aid Crisis — Global Issues

Rohingya IDPs confined to a Sittwe camp in Rakhine State wait for international intervention. More than 1.5 million people are displaced in Myanmar. Credit: Sara Perria/IPS by Guy Dinmore, Thompson Chau (bangkok) Tuesday, February 21, 2023 Inter Press Service BANGKOK, Feb 21 (IPS) – Nearly 18 million people – about one-third of Myanmar’s population – need humanitarian aid this year because of…

View On WordPress