Saturday, March 16, 2024

New research suggests that our universe has no dark matter

The current theoretical model for the composition of the universe is that it’s made of ‘normal matter,’ ‘dark energy’ and ‘dark matter.’ A new uOttawa study challenges this

UNIVERSITY OF OTTAWA

New research suggests that our universe has no dark matter — IMAGE:
“THE STUDY'S FINDINGS CONFIRM THAT THE UNIVERSE DOES NOT REQUIRE DARK MATTER TO EXIST”
RAJENDRA GUPTA
— PHYSICS PROFESSOR AT THE FACULTY OF SCIENCE, UOTTAWA
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CREDIT: UNIVERSITY OF OTTAWA

The current theoretical model for the composition of the universe is that it’s made of ‘normal matter,’ ‘dark energy’ and ‘dark matter.’ A new uOttawa study challenges this.

A University of Ottawa study published today challenges the current model of the universe by showing that, in fact, it has no room for dark matter.

In cosmology, the term “dark matter” describes all that appears not to interact with light or the electromagnetic field, or that can only be explained through gravitational force. We can’t see it, nor do we know what it’s made of, but it helps us understand how galaxies, planets and stars behave.

Rajendra Gupta, a physics professor at the Faculty of Science, used a combination of the covarying coupling constants (CCC) and “tired light” (TL) theories (the CCC+TL model) to reach this conclusion. This model combines two ideas — about how the forces of nature decrease over cosmic time and about light losing energy when it travels a long distance. It’s been tested and has been shown to match up with several observations, such as about how galaxies are spread out and how light from the early universe has evolved.

This discovery challenges the prevailing understanding of the universe, which suggests that roughly 27% of it is composed of dark matter and less than 5% of ordinary matter, remaining being the dark energy.

Challenging the need for dark matter in the universe

“The study's findings confirm that our previous work (“JWST early Universe observations and ΛCDM cosmology”) about the age of the universe being 26.7billionyears has allowed us to discover that the universe does not require dark matter to exist,” explains Gupta. “In standard cosmology, the accelerated expansion of the universe is said to be caused by dark energy but is in fact due to the weakening forces of nature as it expands, not due to dark energy.”

“Redshifts” refer to when light is shifted toward the red part of the spectrum. The researcher analyzed data from recent papers on the distribution of galaxies at low redshifts and the angular size of the sound horizon in the literature at high redshift.

“There are several papers that question the existence of dark matter, but mine is the first one, to my knowledge, that eliminates its cosmological existence while being consistent with key cosmological observations that we have had time to confirm,” says Gupta.

By challenging the need for dark matter in the universe and providing evidence for a new cosmological model, this study opens up new avenues for exploring the fundamental properties of the universe.

The study, Testing CCC+TL Cosmology with Observed Baryon Acoustic Oscillation Features,was published in the peer-reviewed Astrophysical Journal.

JOURNAL

The Astrophysical Journal

DOI

10.3847/1538-4357/ad1bc6

METHOD OF RESEARCH

Content analysis

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

Testing CCC+TL Cosmology with Observed Baryon Acoustic Oscillation Features

ARTICLE PUBLICATION DATE

15-Mar-2024

LA REVUE GAUCHE - Left Comment: Search results for DARK MATTER

LA REVUE GAUCHE - Left Comment: Search results for DARK ENERGY

LA REVUE GAUCHE - Left Comment: Search results for AETHYR

Study of fatal and nonfatal shootings by police reveals racial disparities, dispatch risks

Analysis, thought to be one of the first published studies that captures both fatal and nonfatal injurious shootings by police nationally, also highlights risks of well-being checks

JOHNS HOPKINS BLOOMBERG SCHOOL OF PUBLIC HEALTH

A new study from researchers at the Johns Hopkins Center for Gun Violence Solutions and Vanderbilt University found that an average of 1,769 people were injured annually in police shootings from 2015 to 2020, 55 percent of them or 979 people, fatally. The study covered a total of 10,308 incidents involving shootings by police. The Center is based at the Johns Hopkins Bloomberg School of Public Health.

The majority of victims in shootings by police—84 percent overall—were reported as armed with a firearm or other weapon, such as a knife or vehicle, during the six-year study period.

The analysis found that overall, when injuries occurred, police responses initiated by a call to emergency dispatchers were 46 percent more likely to end with a fatal shooting injury than incidents where an officer was already on scene. Calls to police to check on the well-being of individuals were 74 percent more likely to be associated with fatal injury than police responses to an incident where shots had already been fired. This includes wellness checks that did not explicitly involve threats or harm before an encounter with police.

The study was published online March 13 in the American Journal of Public Health.

The new findings also suggest that injury disparities among racial groups are underestimated when looking only at fatal shootings. Among people nonfatally injured in police shootings, victims identified as non-Hispanic Black comprised 29 percent (2,226) of race-identified (those with racial data included in records) injured people in this study. In comparison, a 2015 study examining fatal shootings by police in a single year found that 26 percent of victims were non-Hispanic Black people.

The study found that, relative to white victims, non-Hispanic Black people were disproportionately injured in nonfatal shootings by police and had 35 percent lower odds of fatal injury when shot.

Firearm research often focuses on fatalities, as they are listed as the cause of death and reported to the Centers for Disease Control and Prevention. Currently, there is no database that consistently and reliably tracks nonfatal firearm injuries for the general population. As for shootings by police, reporting by law enforcement agencies to the federal government’s data systems is voluntary, and death certificate inclusion of law enforcement involvement is inconsistent. Researchers say this makes official reporting unreliable. The researchers undertook this study to get a fuller picture of shootings by police.

For their study, researchers manually reviewed publicly available records on police shootings maintained by the Gun Violence Archive that resulted in a fatal or nonfatal injury from 2015 to 2020. The Gun Violence Archive, a nonpartisan nonprofit founded in 2013, maintains a database of fatal and nonfatal gun violence using thousands of sources including media, law enforcement, government, and commercial. Fifteen trained Bloomberg School students and researchers manually reviewed and coded the incidents at least once. The team then cross-referenced fatal incidents with Fatal Encounters, a database that tracks fatal shootings by police officers.

Incidents in which mental or behavioral health conditions were named in association with the shooting comprised 23 percent (2,404) of all shootings by police. Injuries associated with behavioral health needs were more likely to be fatal. Sixty-seven percent (1,611) of all shootings by police involving someone suffering from a mental or behavioral health episode were fatal.

“The data we reviewed suggests that behavioral health calls are a common interaction preceding injurious shootings by police,” says Cassandra Crifasi, PhD, MPH, co-director of the Johns Hopkins Center for Gun Violence Solutions. “We recommend improving social services to make responding to behavioral health calls safer for everyone. Public support is high for these approaches including nonpolice mobile units, diversion to mental health services, and a police and mental health co-responder model.”

The analysis found that the odds of a fatal shooting by police were significantly higher if the victim was armed. In more than half of these fatal shootings—57 percent or 3,356—someone other than a police officer was also armed with a firearm. Overall, 364 (3 percent) of injured people possessed a replica or BB gun and 1,531 (14 percent) were armed with a knife. In contrast, in 955 (9 percent) of shootings, the injured person was not armed.

Of all shootings by police involving no other weapon, i.e., from victims or others, 40 percent of victims (785) were described as non-Hispanic white, 35 percent were non-Hispanic Black, and 21 percent were Hispanic.

“While this study improves our understanding of injurious shootings by police, there is a clear gap in systematic reporting of all shootings by police, fatal and nonfatal,” says Daniel Webster, ScD, Distinguished Research Scholar at the Center for Gun Violence Solutions. “Law enforcement agencies at all levels of government should commit to gathering comprehensive, detailed, and standardized data to inform efforts to prevent future injurious shootings by police.”

The authors note that the study has limitations. Because the analysis relies on media stories, data rely on assumptions of newsworthiness, accurate reporting, and resulting news coverage.

The authors also note that public safety reforms should require reporting nonfatal as well as fatal shootings by police to assess overall impact among groups disproportionately affected.

First author Julie Ward, RN, PhD, MN, conceptualized the study when she was completing her PhD at the Bloomberg School. She is now an assistant professor at Vanderbilt University.

“National Burden of Injury and Deaths From Shootings by Police in the United States, 2015‒2020” was written by Julie A. Ward, RN, PhD, MN, Javier Cepeda, PhD, MPH, Dylan B. Jackson, PhD, MS, Odis Johnson Jr, PhD, Daniel W. Webster, ScD, MPH, and Cassandra K. Crifasi, PhD, MPH.

The study was supported by New Venture Fund, Joyce Foundation, and Robert Wood Johnson Foundation.

# # #

JOURNAL

American Journal of Public Health

ARTICLE PUBLICATION DATE

13-Mar-2024

China's urban jungles: how city parks are winning the battle against concrete

AEROSPACE INFORMATION RESEARCH INSTITUTE, CHINESE ACADEMY OF SCIENCES

Change types of MODIS NDVI in urban areas for 2001 to 2020. — IMAGE:
CHANGE TYPES OF MODIS NDVI IN URBAN AREAS FOR 2001 TO 2020. (A) YEARLY MEAN NDVI IN URBAN CORE AND URBAN EXPANSION AREAS DURING 2001 TO 2020. (B) VEGETATION CHANGE TYPES FOR EACH URBAN AREAS (N = 965), INCLUDING URBAN CORE AND URBANIZATION. (C) NUMBER AND TIMING OF BREAKPOINTS OF THE CLASS RECOVERY (N = 609). (D) PERCENT OF URBAN VEGETATION COVER CHANGE TYPES FOR DIFFERENT GEOGRAPHICAL ZONES. (E) PERCENT OF VEGETATION CHANGE TYPES FOR GROUPS OF DIFFERENT URBAN AREA SIZES.
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CREDIT: JOURNAL OF REMOTE SENSING

Recent studies highlight a significant transformation in China’s urban landscape, where the greening of city cores is compensating for vegetation loss in expanding urban areas. This change reflects the country's efforts towards urban sustainability and greening policies over the past two decades.

In the face of rapid urbanization, China has embarked on an impressive journey of urban greening, transforming the environmental narrative from degradation to sustainability. The collaboration between the University of Copenhagen and the Chinese Academy of Sciences has yielded groundbreaking insights through satellite analysis of the evolution of greenness in over 974 cities from 2000 to 2020. This strategic pivot towards revitalizing urban ecosystems is meticulously documented in a new review (doi: 10.34133/remotesensing.0112) published in the Journal of Remote Sensing on February 8, 2024, marking a significant stride in sustainable urban development.

This study delves into the evolving landscape of Chinese cities, showcasing an optimistic trend where the greening of urban cores effectively counters the loss of vegetation due to sprawling urban expansion. By harnessing advanced satellite imagery analysis, researchers meticulously tracked changes in urban vegetation across China from 2000 to 2020. They developed a novel classification system to distinguish between areas of greening, browning, stability, reversal, and recovery. The findings reveal a pivotal shift post-2011, with over 60% of the cities demonstrating substantial recovery of greenness. This outcome reflects the positive impact of China’s rigorous urban greening policies, which will contribute to enhancing biodiversity, improving air quality, and elevating the quality of life for city dwellers. This research not only highlights the resilience of urban ecosystems but also illustrates the tangible benefits of integrating green spaces into urban planning.

Dr. Xiaoxin Zhang, the lead author, states, "Our findings provide a hopeful perspective on how urban planning and greening initiatives can effectively balance urban expansion with environmental sustainability. It's a testament to China's commitment to building greener, more livable cities."

By conducting a thorough analysis, the study illuminates the complex interactions within our planet's carbon cycle in response to environmental challenges. This provides essential knowledge for advancing climate science and devising effective management approaches.

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References

DOI

10.34133/remotesensing.0112

Original Source URL

https://spj.science.org/doi/10.34133/remotesensing.0112

Funding information

This work was supported by the China Scholarship Council (CSC, grant no. 201904910835 to X.Z.); Independent Research Fund Denmark–DFF Sapere Aude (grant 9064-00049B to M.B.); and the Villum Foundation through the project “Deep Learning and Remote Sensing for Unlocking Global Ecosystem Resource Dynamics” (DeReEco to R.F.).

About Journal of Remote Sensing

The Journal of Remote Sensing, an online-only Open Access journal published in association with AIR-CAS, promotes the theory, science, and technology of remote sensing, as well as interdisciplinary research within earth and information science.

JOURNAL

Journal of Remote Sensing

DOI

10.34133/remotesensing.0112

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

Urban Core Greening Balances Browning in Urban Expansion Areas in China during Recent Decades

ARTICLE PUBLICATION DATE

8-Feb-2024

COI STATEMENT

The authors declare that they have no competing interests.

Sun's secrets unveiled: AI unlocks new solar energy horizons in China

AEROSPACE INFORMATION RESEARCH INSTITUTE, CHINESE ACADEMY OF SCIENCES

Spatial distribution of CMA stations. — IMAGE:
SPATIAL DISTRIBUTION OF CMA STATIONS. A TOTAL OF 2,453 BLUE CIRCLES REPRESENT ROUTINE WEATHER STATIONS, WHICH HAVE SUNSHINE DURATION MEASUREMENTS. SEVENTEEN RED RHOMBUSES REPRESENT RADIATION STATIONS THAT HAVE RDIR AND RDIF OBSERVATIONS.
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CREDIT: JOURNAL OF REMOTE SENSING

Researchers have developed an innovative machine learning method to estimate solar radiation components in China without the need for local ground truth data. This breakthrough addresses the scarcity of radiation component data and opens new avenues for the solar energy industry.

In a new study (DOI: 10.34133/remotesensing.0111) published in the Journal of Remote Sensing in February 2024, researchers utilized data augmentation alongside the LightGBM machine learning model for the estimation of both diffuse and direct solar radiation. By leveraging sunshine duration data collected from over 2,453 weather stations throughout China, this research overcomes the limitations posed by sparse and unevenly distributed ground-based observations.

This approach ingeniously utilizes sunshine duration data gathered from over 2,453 weather stations, effectively bypassing the traditional obstacles of sparse and irregularly distributed ground-based observations. The core of this research lies in its novel application of machine learning algorithms, which are trained on augmented datasets to predict solar radiation components with unprecedented accuracy. The methodology is particularly groundbreaking because it does not rely on local ground truth data for calibration, making it a universally applicable solution. The validation of this model against independent datasets not only confirmed its effectiveness within China but also indicated its potential for global application. Moreover, the creation of a new satellite-based dataset as a result of this study stands out for its superior accuracy over existing datasets, providing a detailed spatial distribution of solar radiation components. This dataset is instrumental for advancing solar energy research and deployment, offering insights that can lead to more efficient and optimized solar energy production.

Professor Kun Yang, the lead researcher from Tsinghua University, stated, "Our method significantly enhances the accuracy and applicability of solar radiation component estimates, paving the way for optimized solar energy utilization across China and potentially worldwide."

This innovative approach not only establishes a new standard for estimating solar radiation but also presents a globally scalable solution, signaling a groundbreaking shift in solar energy research and implementation. The newly developed satellite-based dataset excels in precision over prior datasets and delivers an exhaustive spatial analysis of solar radiation components. This advancement is vital for the solar energy sector, enabling more strategic site selection and system optimization, especially in areas with high solar energy potential.

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References

DOI

10.34133/remotesensing.0111

Original Source URL

https://spj.science.org/doi/10.34133/remotesensing.0111

Funding information

This work was supported by the Sustainable Development International Cooperation Program of National Science Foundation of China (Grant No. 42361144875) and the National Natural Science Foundation of China (Grant No. 42171360).

About Journal of Remote Sensing

JOURNAL

Journal of Remote Sensing

DOI

10.34133/remotesensing.0111

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

Data Augmentation-Based Estimation of Solar Radiation Components without Referring to Local Ground Truth in China

Revealing nature's secrets from space: satellite data unlocks drought's impact on Southwest China's carbon cycle

AEROSPACE INFORMATION RESEARCH INSTITUTE, CHINESE ACADEMY OF SCIENCES

Spatial patterns of AGC density changes during 2013-2021. — IMAGE:
SPATIAL PATTERNS OF AGC DENSITY CHANGES DURING 2013-2021. (A) YEARLY NET CHANGES, (B) TRENDS, (C) GROSS GAINS, AND (D) GROSS LOSSES IN AGC DENSITY DURING THE 2013-2021 PERIOD. YEARLY AGC TRENDS ARE INDICATED BY SIGNIFICANTLY POSITIVE (BLUE) AND NEGATIVE (RED) TRENDS (LINEAR TREND; P < 0.1). GROSS AGC GAINS AND GROSS AGC LOSSES WERE CALCULATED, RESPECTIVELY, BY AGGREGATING POSITIVE AND NEGATIVE AGC CHANGES, FOR CONSECUTIVE YEARS DURING 2013-2021.
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CREDIT: JOURNAL OF REMOTE SENSING

A new study reveals a significant increase in aboveground carbon (AGC) in Southwest China from 2013 to 2021, defying the adverse effects of extreme droughts. This achievement underscores the region's pivotal role as a carbon sink, attributed to extensive ecological projects and innovative remote sensing techniques.

Over the past four decades, Southwest China has been a major carbon sink, significantly mitigating anthropogenic CO2 emissions. However, recent severe droughts, especially from 2009-2013 and in 2022, have drastically reduced its carbon absorption capacity by affecting vegetation and biomass. This illustrates the region's susceptibility to climate-induced stressors, emphasizing the critical need for protective measures against environmental fluctuations.

In a new study (doi: 10.34133/remotesensing.0113) published in the Journal of Remote Sensing on March 4, 2024, scientists have harnessed satellite and ground-based observations to uncover the significant impact of drought on carbon loss in Southwest China. This research marks a pivotal step in understanding the complex interactions between climate events and the carbon cycle, an essential component for maintaining the balance of our planet's climate.

The study utilized an innovative combination of satellite imagery and ground observations to meticulously analyze the effects of drought on the carbon dynamics within Southwest China. By integrating data from multiple sources, the researchers were able to observe and quantify the extent of carbon loss attributed to drought conditions. This approach not only highlights the vulnerability of the region's carbon stocks to climate variability but also sets a new benchmark in utilizing technology to monitor and understand ecological changes. The findings underscore the importance of satellite data in providing a comprehensive and accurate picture of how natural disasters like droughts can alter the carbon balance, potentially leading to long-term shifts in the ecosystem and climate system. This research highlights the significant impact of ecological initiatives on improving carbon sequestration, offering a strategic model for addressing climate change. The achievements in Southwest China stand as a prominent example for worldwide environmental restoration endeavors.

Dr. Lei Fan, the study's lead researcher, emphasizes, "Our findings illuminate the resilience and potential of Southwest China's ecosystems to act as a substantial carbon sink, highlighting the success of government-led ecological restoration efforts."

By conducting a thorough analysis, the study illuminates the complex interactions within our planet's carbon cycle in response to environmental challenges. This provides essential knowledge for advancing climate science and devising effective management approaches.

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References

DOI

10.34133/remotesensing.0113

Original Source URL

https://doi. org/10.34133/remotesensing.0113

Funding information

This study is supported in part by research grants from the National Natural Science Foundation of China (Grant Nos. 42322103, 42171339, and 41830648).

About Journal of Remote Sensing

JOURNAL

Journal of Remote Sensing

DOI

10.34133/remotesensing.0113

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

Satellite-Observed Increase in Aboveground Carbon over Southwest China during 2013-2021

Unlocking the climate secrets of North China with ancient tree rings

IGSNRR CAS

Overview of the study area. — IMAGE:
OVERVIEW OF THE STUDY AREA.
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CREDIT: JOURNAL OF GEOGRAPHICAL SCIENCES

A recent study published in the Journal of Geographical Sciences in December 2023 reveals a novel method for reconstructing historical warm season temperatures in North China. Utilizing the blue intensity (BI) of tree rings of Picea meyeri, researchers have developed a 281-year chronology, offering unprecedented insights into the region’s climatic past.

The escalating public concern over climate warming, due to its significant impacts on society, ecosystems, and the environment, underscores the importance of understanding long-term climatic conditions across different regions. As the limited observational records constrain our comprehensive grasp of climate change, tree-ring data prove to be a critical proxy, which provides high-resolution and accurately dated insights into climate dynamics over the past millennium.

By analyzing 45 core samples, the researchers established a chronology that mirrors the region's warm season temperatures from May to August. Their methodology significantly advances previous efforts by incorporating latewood density and BI data, filling a critical gap in our climatic understanding. This approach allowed them to construct a detailed temperature record and reveal periods of climatic fluctuations that align closely with historical climate patterns. The study not only demonstrates the effectiveness of BI as a proxy for historical climate analysis but also opens new avenues for reconstructing past climates of other regions. By correlating the BI data with recorded temperature variations, the researchers could trace back temperature trends to 1760 CE, providing a much-needed long-term perspective on climate change in North China. This research stands as a testament to the potential of dendroclimatology in contributing to our understanding of global climate dynamics.

Professor Chen Feng, the study’s corresponding author, emphasized the significance of this research. “This method not only enhances our ability to decipher past climate variations but also strengthens our capacity to forecast future climatic trends, which enables us to avert catastrophic environmental impacts to some extent,” he said.

This study provides valuable data for understanding the dynamics of climate change in North China, revealing seven high-temperature periods and three low-temperature periods over the past 261 years. It demonstrates the potential of BI as a cost-effective and replicable method for climate reconstruction, which is crucial for regional climate prediction and environmental planning.

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References

DOI

10.1007/s11442-023-2187-6

Original Source URL

https://doi.org/10.1007/s11442-023-2187-6

Funding information

National Natural Science Foundation of China, No.32061123008

About Journal of Geographical Sciences

Journal of Geographical Sciences is an international and multidisciplinary peer-reviewed journal focusing on human-nature relationships. It publishes papers on physical geography, natural resources, environmental sciences, geographic information, remote sensing and cartography. Manuscripts come from different parts of the world.

JOURNAL

Journal of Geographical Sciences

DOI

10.1007/s11442-023-2187-6

SUBJECT OF RESEARCH

Not applicable

ARTICLE TITLE

Warm season temperature reconstruction in North China based on the tree-ring blue intensity of Picea meyeri

Aston University wins funding to improve sustainability in the Philippines

ASTON UNIVERSITY

Dr Abed Alaswad, head of the Aston Centre of Engineering for Sustainable Development — IMAGE:
DR ABED ALASWAD, HEAD OF THE ASTON CENTRE OF ENGINEERING FOR SUSTAINABLE DEVELOPMENT
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CREDIT: ASTON UNIVERSITY

Funding will prepare three scientists to improve sustainable development in their country
The University has won British Council International Science Partnerships funding of £180,000
The University already has close ties with the sustainability sector in the Philippines.

Aston University is to help tackle sustainability problems in the Philippines by offering training to three of the country’s early career researchers.

The University has won British Council International Science Partnerships funding of £180,000 to host three scientists in the UK.

The University already has close ties with the sustainability sector in the country and is currently exploring the use of rice straw as an alternative fuel.

Dr Abed Alaswad, head of the Aston Centre of Engineering for Sustainable Development is leading the project. He said: “From an Aston University perspective, this project will aim to further boost our international development research as manifested in the Engineering for Sustainable Development Research Centre.

“This new venture highlights our 2030 Strategy purpose, which is to make our world a better place through education, research and innovation.”

The aim of the three fellowships, which will last up to 12 months each, is to prepare the scientists to respond to sustainable development challenges in their country.

The three researchers will be supervised by Dr Mirjam Roeder, who is based at the University’s Energy and Bioproducts Research Institute (EBRI). They will also benefit from an industrial placement designed to boost their careers.

Dr Roeder said: “I am delighted to supervise and support the three fellows, which will draw on my long track record of early career researcher supervision and mentorship of overseas researchers, including from the Philippines.

“I have more than a decade’s worth of experience working on sustainable technology deployment in the Philippines. Building on the industry, policy and community partnerships EBRI has developed and strengthened during these years, this new opportunity will support the development and progression of talented early career researchers from the Philippines. This will support the UK’s and the Philippines’ efforts to strengthen global partnership for a sustainable future.”

This latest award builds on numerous similar programmes with other countries including a Women in science, technology, engineering and maths (STEM) fellowship programme within Aston Institute of Photonic Technologies and a Women in STEM Masters programme.