Illustration - Loire Valley

Illustration - Loire Valley

FRANCE - LOIRE VALLEY - LOIR ET CHER (41) - CASTLE OF CHEVERNY : AERIAL VIEW FROM THE SOUTH. ON BACKGROUND, THE APPRENTICE GARDEN AND THE ORANGERY. THE CASTLE OF CHEVERNY INSPIRED THE CASTLE OF MOULINSART, FAMOUS HOME OF THE CAPTAIN HADOCK, BEST FRIEND OF TINTIN. ALTHOUGH REDUCED BY ITS TWO LATERAL TOWERS, THE SIMILARITIES ARE STRIKING: HERGE WAS INSPIRED BY THE ARCHITECTURE OF THE CASTLE, BUT ALSO FROM INSIDE THE BUILDING AND ITS GARDENS Photo by Stephane Compoint/Only France/ABACAPRESS.COM

Illustration - Loire Valley

Illustration - Loire Valley

FRANCE - LOIRE VALLEY - LOIR ET CHER (41) - CASTLE OF CHEVERNY : AERIAL VIEW FROM THE SOUTH. ON BACKGROUND, THE APPRENTICE GARDEN AND THE ORANGERY. ON BACKGROUND RIGHT, THE VILLAGE OF CHEVERNY. THE CASTLE OF CHEVERNY INSPIRED THE CASTLE OF MOULINSART, FAMOUS HOME OF THE CAPTAIN HADOCK, BEST FRIEND OF TINTIN. ALTHOUGH REDUCED BY ITS TWO LATERAL TOWERS, THE SIMILARITIES ARE STRIKING: HERGE WAS INSPIRED BY THE ARCHITECTURE OF THE CASTLE, BUT ALSO FROM INSIDE THE BUILDING AND ITS GARDENS. Photo by Stephane Compoint/Only France/ABACAPRESS.COM

Illustration - Aerial View of France

Illustration - Aerial View of France

FRANCE - OCCITANIE - HERAULT (34) - SETE. NICKNAMED VENICE OF LANGUEDOC, SUNG BY GEORGES BRASSENS AND SET BETWEEN THE ETANG DE THAU AND THE MEDITERRANEAN, SETE OWES ITS NICKNAME TO THE CANALS WHICH CRISSCROSS ITS CITY. IN FINE WEATHER, THE CITY CENTER CAN BE VISITED BY BOAT TO DISCOVER ITS PORTS, ITS SHORT POINT, ITS ROYAL CANAL WITH A MANDATORY PASSAGE UNDER THE CITY'S EIGHT BRIDGES. IN THE FOREGROUND FROM G. TO D. : THE NEW BASIN, THE LATERAL CANAL, THE MARITIME CANAL AND THE CANAL DU MIDI. IN THE BACKGROUND FROM G. TO D. : THE OLD PORT, THE ROYAL CANAL AND THE LATERAL CANAL. IN THE BACKGROUND OF G. TO D. : THE GULF OF LION (MEDITERRANEAN SEA), MONT SAINT CLAIR, POINTE DU BARROU AND ETANG DE THAU. Photo by Stephane Compoint/Only France/ABACAPRESS.COM

Illustration - Aerial View of France

Illustration - Aerial View of France

FRANCE - LOIRE VALLEY - LOIR ET CHER (41) - CASTLE OF CHEVERNY : AERIAL VIEW FROM THE SOUTH. ON BACKGROUND, THE APPRENTICE GARDEN AND THE ORANGERY. THE CASTLE OF CHEVERNY INSPIRED THE CASTLE OF MOULINSART, FAMOUS HOME OF THE CAPTAIN HADOCK, BEST FRIEND OF TINTIN. ALTHOUGH REDUCED BY ITS TWO LATERAL TOWERS, THE SIMILARITIES ARE STRIKING: HERGE WAS INSPIRED BY THE ARCHITECTURE OF THE CASTLE, BUT ALSO FROM INSIDE THE BUILDING AND ITS GARDENS Photo by Stephane Compoint/Only France/ABACAPRESS.COM

Queen Letizia Audience - Madrid

Queen Letizia Audience - Madrid

Queen Letizia receives a representation of the Spanish Association of Amyotrophic Lateral Sclerosis to present the work of the Association, on September 9, 2024, in Madrid (Spain). Photo by Jose Oliva/Europa Press/ABACAPRESS.COM

Queen Letizia Audience - Madrid

Queen Letizia Audience - Madrid

Queen Letizia receives a representation of the Spanish Association of Amyotrophic Lateral Sclerosis to present the work of the Association, on September 9, 2024, in Madrid (Spain). Photo by Jose Oliva/Europa Press/ABACAPRESS.COM

Queen Letizia Audience - Madrid

Queen Letizia Audience - Madrid

Queen Letizia receives a representation of the Spanish Association of Amyotrophic Lateral Sclerosis to present the work of the Association, on September 9, 2024, in Madrid (Spain). Photo by Jose Oliva/Europa Press/ABACAPRESS.COM

Queen Letizia Audience - Madrid

Queen Letizia Audience - Madrid

Queen Letizia receives a representation of the Spanish Association of Amyotrophic Lateral Sclerosis to present the work of the Association, on September 9, 2024, in Madrid (Spain). Photo by Jose Oliva/Europa Press/ABACAPRESS.COM

Queen Letizia Audience - Madrid

Queen Letizia Audience - Madrid

Queen Letizia receives a representation of the Spanish Association of Amyotrophic Lateral Sclerosis to present the work of the Association, on September 9, 2024, in Madrid (Spain). Photo by Jose Oliva/Europa Press/ABACAPRESS.COM

Queen Letizia Audience - Madrid

Queen Letizia Audience - Madrid

Queen Letizia receives a representation of the Spanish Association of Amyotrophic Lateral Sclerosis to present the work of the Association, on September 9, 2024, in Madrid (Spain). Photo by Jose Oliva/Europa Press/ABACAPRESS.COM

Queen Letizia Audience - Madrid

Queen Letizia Audience - Madrid

Queen Letizia receives a representation of the Spanish Association of Amyotrophic Lateral Sclerosis to present the work of the Association, on September 9, 2024, in Madrid (Spain). Photo by Jose Oliva/Europa Press/ABACAPRESS.COM

Queen Letizia Audience - Madrid

Queen Letizia Audience - Madrid

Queen Letizia receives a representation of the Spanish Association of Amyotrophic Lateral Sclerosis to present the work of the Association, on September 9, 2024, in Madrid (Spain). Photo by Jose Oliva/Europa Press/ABACAPRESS.COM

Queen Letizia Audience - Madrid

Queen Letizia Audience - Madrid

Queen Letizia receives a representation of the Spanish Association of Amyotrophic Lateral Sclerosis to present the work of the Association, on September 9, 2024, in Madrid (Spain). Photo by Jose Oliva/Europa Press/ABACAPRESS.COM

Queen Letizia Audience - Madrid

Queen Letizia Audience - Madrid

Queen Letizia receives a representation of the Spanish Association of Amyotrophic Lateral Sclerosis to present the work of the Association, on September 9, 2024, in Madrid (Spain). Photo by Jose Oliva/Europa Press/ABACAPRESS.COM

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(240303) -- SHANGHAI, March 3, 2024 (Xinhua) -- Researcher Zhao Miao shows a three-dimensional nanoscale optical disk memory with petabit capacity at a laboratory in the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences in east China's Shanghai, Feb. 29, 2024. A three-dimensional nanoscale optical disk memory with petabit capacity has been developed at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, according to an article published on Feb. 22 in Nature. The research team managed to increase the capacity of optical data storage to the petabit level by extending the planar recording architecture to three dimensions with hundreds of layers, while also breaking the optical diffraction limit barrier of the recorded spots. The minimum spot size and lateral track pitch are 54 nm and 70 nm, respectively. The team developed an optical recording medium based on a photoresist film doped with aggregation-induced emission dye, which can be optically stimu

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(240303) -- SHANGHAI, March 3, 2024 (Xinhua) -- Researcher Zhao Miao observes experiment materials at a laboratory in the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences in east China's Shanghai, Feb. 29, 2024. A three-dimensional nanoscale optical disk memory with petabit capacity has been developed at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, according to an article published on Feb. 22 in Nature. The research team managed to increase the capacity of optical data storage to the petabit level by extending the planar recording architecture to three dimensions with hundreds of layers, while also breaking the optical diffraction limit barrier of the recorded spots. The minimum spot size and lateral track pitch are 54 nm and 70 nm, respectively. The team developed an optical recording medium based on a photoresist film doped with aggregation-induced emission dye, which can be optically stimulated by femtosecond laser beams. The new tech

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(240303) -- SHANGHAI, March 3, 2024 (Xinhua) -- Researcher Ruan Hao works at a laboratory in the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences in east China's Shanghai, Feb. 29, 2024. A three-dimensional nanoscale optical disk memory with petabit capacity has been developed at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, according to an article published on Feb. 22 in Nature. The research team managed to increase the capacity of optical data storage to the petabit level by extending the planar recording architecture to three dimensions with hundreds of layers, while also breaking the optical diffraction limit barrier of the recorded spots. The minimum spot size and lateral track pitch are 54 nm and 70 nm, respectively. The team developed an optical recording medium based on a photoresist film doped with aggregation-induced emission dye, which can be optically stimulated by femtosecond laser beams. The new technology marks the world's

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(240303) -- SHANGHAI, March 3, 2024 (Xinhua) -- Researcher Zhao Miao debugs experiment equipment at a laboratory in the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences in east China's Shanghai, Feb. 29, 2024. A three-dimensional nanoscale optical disk memory with petabit capacity has been developed at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, according to an article published on Feb. 22 in Nature. The research team managed to increase the capacity of optical data storage to the petabit level by extending the planar recording architecture to three dimensions with hundreds of layers, while also breaking the optical diffraction limit barrier of the recorded spots. The minimum spot size and lateral track pitch are 54 nm and 70 nm, respectively. The team developed an optical recording medium based on a photoresist film doped with aggregation-induced emission dye, which can be optically stimulated by femtosecond laser beams. The new techno

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(240303) -- SHANGHAI, March 3, 2024 (Xinhua) -- Researcher Zhao Miao debugs experiment equipment at a laboratory in the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences in east China's Shanghai, Feb. 29, 2024. A three-dimensional nanoscale optical disk memory with petabit capacity has been developed at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, according to an article published on Feb. 22 in Nature. The research team managed to increase the capacity of optical data storage to the petabit level by extending the planar recording architecture to three dimensions with hundreds of layers, while also breaking the optical diffraction limit barrier of the recorded spots. The minimum spot size and lateral track pitch are 54 nm and 70 nm, respectively. The team developed an optical recording medium based on a photoresist film doped with aggregation-induced emission dye, which can be optically stimulated by femtosecond laser beams. The new techno

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(240303) -- SHANGHAI, March 3, 2024 (Xinhua) -- Researchers perform an experiment at a laboratory in the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences in east China's Shanghai, Feb. 29, 2024. A three-dimensional nanoscale optical disk memory with petabit capacity has been developed at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, according to an article published on Feb. 22 in Nature. The research team managed to increase the capacity of optical data storage to the petabit level by extending the planar recording architecture to three dimensions with hundreds of layers, while also breaking the optical diffraction limit barrier of the recorded spots. The minimum spot size and lateral track pitch are 54 nm and 70 nm, respectively. The team developed an optical recording medium based on a photoresist film doped with aggregation-induced emission dye, which can be optically stimulated by femtosecond laser beams. The new technology marks the

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(240303) -- SHANGHAI, March 3, 2024 (Xinhua) -- Researcher Zhao Miao shows a three-dimensional nanoscale optical disk memory with petabit capacity in the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences in east China's Shanghai, Feb. 29, 2024. A three-dimensional nanoscale optical disk memory with petabit capacity has been developed at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, according to an article published on Feb. 22 in Nature. The research team managed to increase the capacity of optical data storage to the petabit level by extending the planar recording architecture to three dimensions with hundreds of layers, while also breaking the optical diffraction limit barrier of the recorded spots. The minimum spot size and lateral track pitch are 54 nm and 70 nm, respectively. The team developed an optical recording medium based on a photoresist film doped with aggregation-induced emission dye, which can be optically stimulated by femtose

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(240303) -- SHANGHAI, March 3, 2024 (Xinhua) -- This photo taken on Feb. 29, 2024 shows experiment materials in the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences in east China's Shanghai. A three-dimensional nanoscale optical disk memory with petabit capacity has been developed at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, according to an article published on Feb. 22 in Nature. The research team managed to increase the capacity of optical data storage to the petabit level by extending the planar recording architecture to three dimensions with hundreds of layers, while also breaking the optical diffraction limit barrier of the recorded spots. The minimum spot size and lateral track pitch are 54 nm and 70 nm, respectively. The team developed an optical recording medium based on a photoresist film doped with aggregation-induced emission dye, which can be optically stimulated by femtosecond laser beams. The new technology marks the worl

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(240303) -- SHANGHAI, March 3, 2024 (Xinhua) -- Reseachers wear masks at a laboratory in the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences in east China's Shanghai, Feb. 29, 2024. A three-dimensional nanoscale optical disk memory with petabit capacity has been developed at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, according to an article published on Feb. 22 in Nature. The research team managed to increase the capacity of optical data storage to the petabit level by extending the planar recording architecture to three dimensions with hundreds of layers, while also breaking the optical diffraction limit barrier of the recorded spots. The minimum spot size and lateral track pitch are 54 nm and 70 nm, respectively. The team developed an optical recording medium based on a photoresist film doped with aggregation-induced emission dye, which can be optically stimulated by femtosecond laser beams. The new technology marks the world's firs

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(240303) -- SHANGHAI, March 3, 2024 (Xinhua) -- Researchers perform an experiment at a laboratory in the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences in east China's Shanghai, Feb. 29, 2024. A three-dimensional nanoscale optical disk memory with petabit capacity has been developed at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, according to an article published on Feb. 22 in Nature. The research team managed to increase the capacity of optical data storage to the petabit level by extending the planar recording architecture to three dimensions with hundreds of layers, while also breaking the optical diffraction limit barrier of the recorded spots. The minimum spot size and lateral track pitch are 54 nm and 70 nm, respectively. The team developed an optical recording medium based on a photoresist film doped with aggregation-induced emission dye, which can be optically stimulated by femtosecond laser beams. The new technology marks the

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(240303) -- SHANGHAI, March 3, 2024 (Xinhua) -- Researchers perform an experiment at a laboratory in the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences in east China's Shanghai, Feb. 29, 2024. A three-dimensional nanoscale optical disk memory with petabit capacity has been developed at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, according to an article published on Feb. 22 in Nature. The research team managed to increase the capacity of optical data storage to the petabit level by extending the planar recording architecture to three dimensions with hundreds of layers, while also breaking the optical diffraction limit barrier of the recorded spots. The minimum spot size and lateral track pitch are 54 nm and 70 nm, respectively. The team developed an optical recording medium based on a photoresist film doped with aggregation-induced emission dye, which can be optically stimulated by femtosecond laser beams. The new technology marks the

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(240303) -- SHANGHAI, March 3, 2024 (Xinhua) -- Researchers perform an experiment at a laboratory in the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences in east China's Shanghai, Feb. 29, 2024. A three-dimensional nanoscale optical disk memory with petabit capacity has been developed at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, according to an article published on Feb. 22 in Nature. The research team managed to increase the capacity of optical data storage to the petabit level by extending the planar recording architecture to three dimensions with hundreds of layers, while also breaking the optical diffraction limit barrier of the recorded spots. The minimum spot size and lateral track pitch are 54 nm and 70 nm, respectively. The team developed an optical recording medium based on a photoresist film doped with aggregation-induced emission dye, which can be optically stimulated by femtosecond laser beams. The new technology marks the

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(EyesOnSci) CHINA-SHANGHAI-OPTICAL DISK-RESEARCHERS (CN)

(240303) -- SHANGHAI, March 3, 2024 (Xinhua) -- Researcher Zhao Miao observes experiment materials via a microscope at a laboratory in the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences in east China's Shanghai, Feb. 29, 2024. A three-dimensional nanoscale optical disk memory with petabit capacity has been developed at the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, according to an article published on Feb. 22 in Nature. The research team managed to increase the capacity of optical data storage to the petabit level by extending the planar recording architecture to three dimensions with hundreds of layers, while also breaking the optical diffraction limit barrier of the recorded spots. The minimum spot size and lateral track pitch are 54 nm and 70 nm, respectively. The team developed an optical recording medium based on a photoresist film doped with aggregation-induced emission dye, which can be optically stimulated by femtosecond laser beam

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia At ALS Project Ceremony - Madrid

Queen Sofia during the presentation ceremony of the ALS Project "Manolo Barrós" at the CIEN Foundation Auditorium, on December 14, 2023, in Madrid (Spain). The Queen Sofia Foundation will fund the "MANOLO BARRÓS" project consisting of the "Search for diagnostic biomarkers of Amyotrophic Lateral Sclerosis (ALS) in extracellular vesicles", developed by the CIEN Foundation in collaboration with the Universities of Bonn and Cologne. Photo by Jose Oliva/Europa Press/ABACAPRES.COM

Justin Trudeau Arrives To Jakarta

Justin Trudeau Arrives To Jakarta

Prime Minister Justin Trudeau takes part in an expanded bi-lateral meeting with President of Indonesia Joko Widodo at Merdeka Palace in Jakarta, Indonesia on Tuesday, Sept. 5, 2023. Trudeau is in Indonesia to attend the ASEAN Summit. Photo by Sean Kilpatrick/Canadian Press/ABACAPRESS.COM

Justin Trudeau Arrives To Jakarta

Justin Trudeau Arrives To Jakarta

Prime Minister Justin Trudeau takes part in a welcome ceremony alongside President of Indonesia Joko Widodo prior to a bi-lateral meeting at Merdeka Palace in Jakarta, Indonesia on Tuesday, Sept. 5, 2023. Trudeau is in Indonesia to attend the ASEAN Summit. Photo by Sean Kilpatrick/Canadian Press/ABACAPRESS.COM

Justin Trudeau Arrives To Jakarta

Justin Trudeau Arrives To Jakarta

Prime Minister Justin Trudeau takes part in a bi-lateral meeting with President of Indonesia Joko Widodo at Merdeka Palace in Jakarta, Indonesia on Tuesday, Sept. 5, 2023. Trudeau is in Indonesia to attend the ASEAN Summit. Photo by Sean Kilpatrick/Canadian Press/ABACAPRESS.COM

Justin Trudeau Arrives To Jakarta

Justin Trudeau Arrives To Jakarta

Prime Minister Justin Trudeau takes part in an expanded bi-lateral meeting with President of Indonesia Joko Widodo at Merdeka Palace in Jakarta, Indonesia on Tuesday, Sept. 5, 2023. Trudeau is in Indonesia to attend the ASEAN Summit. Photo by Sean Kilpatrick/Canadian Press/ABACAPRESS.COM

Justin Trudeau Arrives To Jakarta

Justin Trudeau Arrives To Jakarta

Prime Minister Justin Trudeau takes part in a bi-lateral meeting with President of Indonesia Joko Widodo at Merdeka Palace in Jakarta, Indonesia on Tuesday, Sept. 5, 2023. Trudeau is in Indonesia to attend the ASEAN Summit. Photo by Sean Kilpatrick/Canadian Press/ABACAPRESS.COM