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DUK10063955_079
FEATURE - Surfwettbewerb Outerknown Fiji Pro
Mandatory Credit: Photo by Kelly Cestari/WSL/REX/Shutterstock (8864139as)
Rookie Leonardo Fioravanti of Italy advances to Round Four of the Outerknown Fiji Pro after causing a majory upset by defeating reigning World Champion and JEEP Rankings Leader John John Flornce of Hawaii in Heat 6 of Round Three at Cloudbreak.
Outerknown Fiji Pro, Nadi, Fiji - 13 Jun 2017
(c) Dukas -
DUK10063955_080
FEATURE - Surfwettbewerb Outerknown Fiji Pro
Mandatory Credit: Photo by Kelly Cestari/WSL/REX/Shutterstock (8864139al)
Rookie Leonardo Fioravanti of Italy advances to Round Four of the Outerknown Fiji Pro after causing a majory upset by defeating reigning World Champion and JEEP Rankings Leader John John Flornce of Hawaii in Heat 6 of Round Three at Cloudbreak.
Outerknown Fiji Pro, Nadi, Fiji - 13 Jun 2017
(c) Dukas -
DUK10055384_003
REPORTAGE - Alltag im kriegsversehrten Mossul
EXCLUSIVE: Please try for highest fees possible
Mandatory Credit: Photo by Magnus Wennman/IBL/REX/Shutterstock (8526096d)
A young girl without shoes arrives at the newly opened refugee camp Hammam al-alil south of Mosul. The rain is pouring down. Thousands of families are now escaping western Mosul as the Iraqi forces advances into the city center.
Life in Mosul, Iraq - Mar 2017
*Full story: https://www.rexfeatures.com/nanolink/t87b
The Iraqi army announced the liberation of the entire East-Mosul on Jan. 18, three months after the beginning of the offensive. Iraq's armed forces launched the offensive to retake Mosul in October and are still fighting to retake western Mosul, on the other bank of the Tigris River. The fighting has seen thousands of Iraqs flee, with the country?s immigration minister Jassim Mohammed recently reporting that some 355,000 people have been displaced. Many end up at already overcrowded refugee camps such as Al-Alil to the south of Mosul. Others head to the shattered eastern side of the city. Here, while ISIS, who took over the city in June 2014, may have been driven out the scars and damage left in their wake is still painfully visible. As residents slowly return to their homes they face a large hard battle just to survive let alone rebuild and return to a semblance of normal life.
(FOTO:DUKAS/REX)
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DUK10091634_020
NEWS - Literaturnobelpreis: Schwedische Akademie verkündet Pause (Archivbilder)
(151211) -- STOCKHOLM, Dec. 11, 2015 (Xinhua) -- Sweden's King Carl XVI Gustaf and Queen Silvia attend the royal banquet for Nobel laureates at Royal Palace in Stockholm, Sweden, Dec. 11, 2015. (Xinhua/Ye Pingfan)
Xinhua News Agency / eyevine
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(FOTO: DUKAS/EYEVINE) *** Local Caption *** 01569313
(c) Dukas -
DUKAS_46092970_REX
Lions mating, Kruger National Park, South Africa - 20 Sep 2014
Mandatory Credit: Photo by Thomas Heaton/REX (4361884c)
The Lioness accepts the male's advances and he agressively mates with the female. The interaction only lasts a few seconds and is repeated several times.
Lions mating, Kruger National Park, South Africa - 20 Sep 2014
(FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_46092966_REX
Lions mating, Kruger National Park, South Africa - 20 Sep 2014
Mandatory Credit: Photo by Thomas Heaton/REX (4361884b)
The Lioness accepts the male's advances
Lions mating, Kruger National Park, South Africa - 20 Sep 2014
(FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_37298533_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
DUKAS/EYEVINE -
DUKAS_37298531_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
DUKAS/EYEVINE -
DUKAS_37298530_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
DUKAS/EYEVINE -
DUKAS_37298526_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
DUKAS/EYEVINE -
DUKAS_168235605_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
Contact eyevine for more information about using this image:
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
© David Levene / eyevine. -
DUKAS_168235591_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
© David Levene / eyevine. -
DUKAS_168235587_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
Contact eyevine for more information about using this image:
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
© David Levene / eyevine. -
DUKAS_168235590_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
© David Levene / eyevine. -
DUKAS_168235589_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
© David Levene / eyevine. -
DUKAS_168235588_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
© David Levene / eyevine. -
DUKAS_168235603_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
© David Levene / eyevine. -
DUKAS_168235594_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
Contact eyevine for more information about using this image:
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
© David Levene / eyevine. -
DUKAS_168235592_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
© David Levene / eyevine. -
DUKAS_168235602_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
© David Levene / eyevine. -
DUKAS_168235593_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
© David Levene / eyevine. -
DUKAS_168235604_EYE
Peter Higgs
Peter Higgs is a British theoretical physicist, Nobel Prize laureate and emeritus professor at the University of Edinburgh.
He is best known for his 1960s proposal of broken symmetry in electroweak theory, explaining the origin of mass of elementary particles in general and of the W and Z bosons in particular. This so-called Higgs mechanism, which was proposed by several physicists besides Higgs at about the same time, predicts the existence of a new particle, the Higgs boson (which was often described as 'the most sought-after particle in modern physics'). CERN announced on 4 July 2012 that they had experimentally established the existence of a Higgs-like boson, but further work is needed to analyse its properties and see if it has the properties expected from the Standard Model Higgs boson. On 14 March 2013, the newly discovered particle was tentatively confirmed to be + parity and zero spin, two fundamental criteria of a Higgs boson, making it the first known fundamental scalar particle to be discovered in nature (although previously, composite scalars such as the K* had been observed over half a century prior). The Higgs mechanism is generally accepted as an important ingredient in the Standard Model of particle physics, without which certain particles would have no mass.
© David Levene / eyevine
Contact eyevine for more information about using this image:
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE)
© David Levene / eyevine. -
DUKAS_22807474_REX
Boxing Hares, females fight off males during mating season, island of Texel, Holland - Mar 2012
Mandatory Credit: Photo by Richard Peters / Rex Features (1667663g)
Female hare fights off lots of males advances for mating rights, taken on the Island of Texel.
Hopping Mad: Female Hare Fights Off Admirers
These images show a brutal boxing match between two brown hares.
Traditionally a sign spring is on its way, the female hare fights off the mating urges of the males by standing on their hind legs and 'boxing' with their front paws.
The sight of these 'mad March hares' boxing caused British wildlife photographer Richard Peters to pick up his camera and capture the ferocious battle in action, which at one point saw the female having to fend off up to five males at once.
Mr Peters said: "The battle got quite viscous with fur flying everywhere.
"It started off with one male hare chasing the female around a field before the action ended up on a huge mud pile.
"At one point the female hare was up against five males, which highlights the chaos of this time of year in the life of a hare."
The contests were long believed to be between two male hares fighting for dominance to mate with a female.
But in fact the disputes are usually a reluctant female that is not yet ready to mate and tries to repel the unwanted advances of an overexcited male, which is part of the brown hare's courtship ritual.
Mr Peters took the photographs of the hares while visiting the Island of Texel in the province of North Holland.
Texel has one of the highest populations of hare in Europe because it is a small island and they cannot escape.
MUST CREDIT PICTURES TO:
Richard Peters / Rex Features
For more information visit http://www.rexfeatures.com/stacklink/VZPEEKWVC (FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_22807473_REX
Boxing Hares, females fight off males during mating season, island of Texel, Holland - Mar 2012
Mandatory Credit: Photo by Richard Peters / Rex Features (1667663f)
Female hare fights off the males advances for mating rights, taken on the Island of Texel.
The main images depict a battle that started out far off in a field as the male chased the female around, before the action ended up on a huge mud pile which can be seen in the background of one of the images, and is the focus of the main fighting photo.
Hopping Mad: Female Hare Fights Off Admirers
These images show a brutal boxing match between two brown hares.
Traditionally a sign spring is on its way, the female hare fights off the mating urges of the males by standing on their hind legs and 'boxing' with their front paws.
The sight of these 'mad March hares' boxing caused British wildlife photographer Richard Peters to pick up his camera and capture the ferocious battle in action, which at one point saw the female having to fend off up to five males at once.
Mr Peters said: "The battle got quite viscous with fur flying everywhere.
"It started off with one male hare chasing the female around a field before the action ended up on a huge mud pile.
"At one point the female hare was up against five males, which highlights the chaos of this time of year in the life of a hare."
The contests were long believed to be between two male hares fighting for dominance to mate with a female.
But in fact the disputes are usually a reluctant female that is not yet ready to mate and tries to repel the unwanted advances of an overexcited male, which is part of the brown hare's courtship ritual.
Mr Peters took the photographs of the hares while visiting the Island of Texel in the province of North Holland.
Texel has one of the highest populations of hare in Europe because it is a small island and they cannot escape.
MUST CREDIT PICTURES TO:
Richard Peters / Rex Features
For more information visit http://www.rexfeatures.com/stacklink/VZPEEKWVC (FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_22807472_REX
Boxing Hares, females fight off males during mating season, island of Texel, Holland - Mar 2012
Mandatory Credit: Photo by Richard Peters / Rex Features (1667663e)
Female hare fights off the males advances for mating rights, taken on the Island of Texel.
The main images depict a battle that started out far off in a field as the male chased the female around, before the action ended up on a huge mud pile which can be seen in the background of one of the images, and is the focus of the main fighting photo.
Hopping Mad: Female Hare Fights Off Admirers
These images show a brutal boxing match between two brown hares.
Traditionally a sign spring is on its way, the female hare fights off the mating urges of the males by standing on their hind legs and 'boxing' with their front paws.
The sight of these 'mad March hares' boxing caused British wildlife photographer Richard Peters to pick up his camera and capture the ferocious battle in action, which at one point saw the female having to fend off up to five males at once.
Mr Peters said: "The battle got quite viscous with fur flying everywhere.
"It started off with one male hare chasing the female around a field before the action ended up on a huge mud pile.
"At one point the female hare was up against five males, which highlights the chaos of this time of year in the life of a hare."
The contests were long believed to be between two male hares fighting for dominance to mate with a female.
But in fact the disputes are usually a reluctant female that is not yet ready to mate and tries to repel the unwanted advances of an overexcited male, which is part of the brown hare's courtship ritual.
Mr Peters took the photographs of the hares while visiting the Island of Texel in the province of North Holland.
Texel has one of the highest populations of hare in Europe because it is a small island and they cannot escape.
MUST CREDIT PICTURES TO:
Richard Peters / Rex Features
For more information visit http://www.rexfeatures.com/stacklink/VZPEEKWVC (FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_22807471_REX
Boxing Hares, females fight off males during mating season, island of Texel, Holland - Mar 2012
Mandatory Credit: Photo by Richard Peters / Rex Features (1667663d)
Female hare fights off the males advances for mating rights, taken on the Island of Texel.
The main images depict a battle that started out far off in a field as the male chased the female around, before the action ended up on a huge mud pile which can be seen in the background of one of the images, and is the focus of the main fighting photo.
Hopping Mad: Female Hare Fights Off Admirers
These images show a brutal boxing match between two brown hares.
Traditionally a sign spring is on its way, the female hare fights off the mating urges of the males by standing on their hind legs and 'boxing' with their front paws.
The sight of these 'mad March hares' boxing caused British wildlife photographer Richard Peters to pick up his camera and capture the ferocious battle in action, which at one point saw the female having to fend off up to five males at once.
Mr Peters said: "The battle got quite viscous with fur flying everywhere.
"It started off with one male hare chasing the female around a field before the action ended up on a huge mud pile.
"At one point the female hare was up against five males, which highlights the chaos of this time of year in the life of a hare."
The contests were long believed to be between two male hares fighting for dominance to mate with a female.
But in fact the disputes are usually a reluctant female that is not yet ready to mate and tries to repel the unwanted advances of an overexcited male, which is part of the brown hare's courtship ritual.
Mr Peters took the photographs of the hares while visiting the Island of Texel in the province of North Holland.
Texel has one of the highest populations of hare in Europe because it is a small island and they cannot escape.
MUST CREDIT PICTURES TO:
Richard Peters / Rex Features
For more information visit http://www.rexfeatures.com/stacklink/VZPEEKWVC (FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_22807470_REX
Boxing Hares, females fight off males during mating season, island of Texel, Holland - Mar 2012
Mandatory Credit: Photo by Richard Peters / Rex Features (1667663c)
Female hare fights off the males advances for mating rights, taken on the Island of Texel.
The main images depict a battle that started out far off in a field as the male chased the female around, before the action ended up on a huge mud pile which can be seen in the background of one of the images, and is the focus of the main fighting photo.
Hopping Mad: Female Hare Fights Off Admirers
These images show a brutal boxing match between two brown hares.
Traditionally a sign spring is on its way, the female hare fights off the mating urges of the males by standing on their hind legs and 'boxing' with their front paws.
The sight of these 'mad March hares' boxing caused British wildlife photographer Richard Peters to pick up his camera and capture the ferocious battle in action, which at one point saw the female having to fend off up to five males at once.
Mr Peters said: "The battle got quite viscous with fur flying everywhere.
"It started off with one male hare chasing the female around a field before the action ended up on a huge mud pile.
"At one point the female hare was up against five males, which highlights the chaos of this time of year in the life of a hare."
The contests were long believed to be between two male hares fighting for dominance to mate with a female.
But in fact the disputes are usually a reluctant female that is not yet ready to mate and tries to repel the unwanted advances of an overexcited male, which is part of the brown hare's courtship ritual.
Mr Peters took the photographs of the hares while visiting the Island of Texel in the province of North Holland.
Texel has one of the highest populations of hare in Europe because it is a small island and they cannot escape.
MUST CREDIT PICTURES TO:
Richard Peters / Rex Features
For more information visit http://www.rexfeatures.com/stacklink/VZPEEKWVC (FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_22807469_REX
Boxing Hares, females fight off males during mating season, island of Texel, Holland - Mar 2012
Mandatory Credit: Photo by Richard Peters / Rex Features (1667663b)
Female hare fights off the males advances for mating rights, taken on the Island of Texel.
The main images depict a battle that started out far off in a field as the male chased the female around, before the action ended up on a huge mud pile which can be seen in the background of one of the images, and is the focus of the main fighting photo.
Hopping Mad: Female Hare Fights Off Admirers
These images show a brutal boxing match between two brown hares.
Traditionally a sign spring is on its way, the female hare fights off the mating urges of the males by standing on their hind legs and 'boxing' with their front paws.
The sight of these 'mad March hares' boxing caused British wildlife photographer Richard Peters to pick up his camera and capture the ferocious battle in action, which at one point saw the female having to fend off up to five males at once.
Mr Peters said: "The battle got quite viscous with fur flying everywhere.
"It started off with one male hare chasing the female around a field before the action ended up on a huge mud pile.
"At one point the female hare was up against five males, which highlights the chaos of this time of year in the life of a hare."
The contests were long believed to be between two male hares fighting for dominance to mate with a female.
But in fact the disputes are usually a reluctant female that is not yet ready to mate and tries to repel the unwanted advances of an overexcited male, which is part of the brown hare's courtship ritual.
Mr Peters took the photographs of the hares while visiting the Island of Texel in the province of North Holland.
Texel has one of the highest populations of hare in Europe because it is a small island and they cannot escape.
MUST CREDIT PICTURES TO:
Richard Peters / Rex Features
For more information visit http://www.rexfeatures.com/stacklink/VZPEEKWVC (FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_22807468_REX
Boxing Hares, females fight off males during mating season, island of Texel, Holland - Mar 2012
Mandatory Credit: Photo by Richard Peters / Rex Features (1667663a)
Female hare fights off the males advances for mating rights, taken on the Island of Texel.
The main images depict a battle that started out far off in a field as the male chased the female around, before the action ended up on a huge mud pile which can be seen in the background of one of the images, and is the focus of the main fighting photo., FULL COPY
Hopping Mad: Female Hare Fights Off Admirers
These images show a brutal boxing match between two brown hares.
Traditionally a sign spring is on its way, the female hare fights off the mating urges of the males by standing on their hind legs and 'boxing' with their front paws.
The sight of these 'mad March hares' boxing caused British wildlife photographer Richard Peters to pick up his camera and capture the ferocious battle in action, which at one point saw the female having to fend off up to five males at once.
Mr Peters said: "The battle got quite viscous with fur flying everywhere.
"It started off with one male hare chasing the female around a field before the action ended up on a huge mud pile.
"At one point the female hare was up against five males, which highlights the chaos of this time of year in the life of a hare."
The contests were long believed to be between two male hares fighting for dominance to mate with a female.
But in fact the disputes are usually a reluctant female that is not yet ready to mate and tries to repel the unwanted advances of an overexcited male, which is part of the brown hare's courtship ritual.
Mr Peters took the photographs of the hares while visiting the Island of Texel in the province of North Holland.
Texel has one of the highest populations of hare in Europe because it is a small island and they cannot escape.
MUST CREDIT PICTURES TO:
Richard Peters / Rex Features
For more information visit http://www.rexfeatures.com/stacklink/VZPEEKWVC (FOTO:DUKAS/REX)
DUKAS/REX -
DUK10017623_012
PORTRAIT - Dr. Luke Alphey
Oxitec is a pioneer in controlling insects that spread disease and damage crops. Dr Luke Alphey, co-founder and chief scientist of Oxitec, stands next to mosquito cages in the rearing facility.
© Micha Theiner / eyevine
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PORTRAIT - Dr. Luke Alphey
Oxitec is a pioneer in controlling insects that spread disease and damage crops. Dr Luke Alphey, co-founder and chief scientist of Oxitec, stands next to mosquito cages in the rearing facility.
© Micha Theiner / eyevine
Contact eyevine for more information about using this image:
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PORTRAIT - Dr. Luke Alphey
Oxitec is a pioneer in controlling insects that spread disease and damage crops. Dr Luke Alphey, co-founder and chief scientist of Oxitec, stands next to mosquito cages in the rearing facility.
© Micha Theiner / eyevine
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PORTRAIT - Dr. Luke Alphey
Dr Luke Alphey, co-founder and chief scientist of Oxitec, holds a mosquito cage in the strain development lab.
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PORTRAIT - Dr. Luke Alphey
Dr Luke Alphey, co-founder and chief scientist of Oxitec, holds a mosquito cage in the strain development lab.
© Micha Theiner / eyevine
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PORTRAIT - Dr. Luke Alphey
Dr Luke Alphey, co-founder and chief scientist of Oxitec, holds a mosquito cage in the strain development lab.
© Micha Theiner / eyevine
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PORTRAIT - Dr. Luke Alphey
Dr Luke Alphey, co-founder and chief scientist of Oxitec, holds a mosquito cage in the strain development lab.
© Micha Theiner / eyevine
Contact eyevine for more information about using this image:
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http:///www.eyevine.com (FOTO: DUKAS/EYEVINE) *** Local Caption *** 00825069
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(3)CHINA-BEIJING-SHENZHOU-7 (CN)
(080930) -- BEIJING, Sept. 30, 2008 (Xinhua) -- The re-entry module of China's Shenzhou-7 spacecraft is carried away by a truck at Beijing's Changping railway station Sept. 30, 2008. The capsule was shipped to Beijing Tuesday afternoon, two days after its safe landing in northern China's Inner Mongolia.(Xinhua/Zha Chunming) (dyw)
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(2)CHINA-BEIJING-SHENZHOU-7 (CN)
(080930) -- BEIJING, Sept. 30, 2008 (Xinhua) -- The re-entry module of China's Shenzhou-7 spacecraft is lifted onto a truck at Beijing's Changping railway station Sept. 30, 2008. The module was shipped to Beijing Tuesday afternoon, two days after its safe landing in northern China's Inner Mongolia. (Xinhua/Zha Chunming) (dyw)
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(2)CHINA-BEIJING-SHENZHOU-7-TAIKONAUTS-BACK TO BEIJING (CN)
(080929) -- BEIJING, Sept. 29, 2008 (Xinhua) -- Chinese taikonaut Zhai Zhigang (C) together with his family waves after getting off the plane in Beijing, capital of China, on Sept. 29, 2008. The three taikonauts of Shenzhou-7 space module crew Zhai Zhigang, Liu Boming and Jing Haipeng return to Beijing on Monday. (Xinhua/Zha Chunming) (lyx)
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(2)CHINA-INNER MONGOLIA-SHENZHOU-7-CREW-BACK TO BEIJING (CN)
(080929) -- HOHHOT, Sept. 29, 2008 (Xinhua) -- Chinese taikonauts of Shenzhou-7 space module crew wave to local people who came to see them off in Hohhot, north China's Inner Mongolia Autonomous Region, Sept. 29, 2008. A red-carpet ceremony was held here at 6:30 Monday to send off the three astronauts Zhai Zhigang, Liu Boming and Jing Haipeng back to Beijing, capital of China. (Xinhua/Zhang Ling) (lyx)
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(1)CHINA-BEIJING-SHENZHOU-7-TAIKONAUTS-BACK TO BEIJING (CN)
(080929) -- BEIJING, Sept. 29, 2008 (Xinhua) -- Chinese taikonauts who have successfully completed the country's third manned space mission salute after getting off the plane in Beijing, capital of China, on Sept. 29, 2008. The three taikonauts of Shenzhou-7 space module crew Zhai Zhigang, Liu Boming and Jing Haipeng return to Beijing on Monday. (Xinhua/Zha Chunming) (lyx)
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(3)CHINA-BEIJING-SHENZHOU-7-TAIKONAUTS-BACK TO BEIJING (CN)
(080929) -- BEIJING, Sept. 29, 2008 (Xinhua) -- China's first spaceman Yang Liwei (L) congratulates Liu Boming (C), one of the three Chinese taikonauts who have successfully completed the country's third manned space mission at an airport in Beijing, capital of China, on Sept. 29, 2008. The three taikonauts of Shenzhou-7 space module crew Zhai Zhigang, Liu Boming and Jing Haipeng return to Beijing on Monday. (Xinhua/Zha Chunming) (lyx)
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CHINA-SHENZHOU-7-RETURN PHASE (CN)
(080928) -- BEIJING, Sept. 28, 2008 (Xinhua) -- China's Shenzhou-7 spacecraft's re-entry module lands safely in north China's Inner Mongolia Autonomous Region. (Xinhua/Wang Jianmin) (nxl)
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CHINA-SHENZHOU-7-RETURN PHASE (CN)
(080928) -- SIZIWANG BANNER, Sept. 28, 2008 (Xinhua) -- Chinese taikonaut Zhai Zhigang (C) smiles as he is helped to board the helecopter flying to Hohhot after safe landing in North China's Inner Mongolia Autonomous Region on Sept. 28, 2008. China's Shenzhou-7 spacecraft re-entry module boarding three Chinese taikonauts landed here Sunday marking China's first-ever spacewalk mission a great success. (Xinhua/Wang Jianmin) (jlp)
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CHINA-SHENZHOU-7-RETURN PHASE (CN)
(080928) -- BEIJING , Sept. 28, 2008 (Xinhua) -- Chinese taikonaut Zhai Zhigang is helped to as he gets out of Shenzhou-7 re-entry module after its safe landing in North China's Inner Mongolia Autonomous Region on Sept. 28, 2008. (Xinhua/Li Gang) (nxl)
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CHINA-SHENZHOU-7-RETURN PHASE (CN)
(080928) -- SIZIWANG BANNER, Sept. 28, 2008 (Xinhua) -- Rescuers work at the landing site of China's Shenzhou-7 re-entry module in Siziwang Banner of north China's Inner Mongolia Sept. 28, 2008. The module boarding three Chinese taikonauts landed here Sunday marking China's first-ever spacewalk mission a great success. (Xinhua/Ren Junchuan) (nxl)
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CHINA-SHENZHOU-7-RETURN PHASE (CN)
(080928) -- BEIJING , Sept. 28, 2008 (Xinhua) -- Chinese taikonaut Zhai Zhigang is helped to as he gets out of Shenzhou-7 re-entry module after its safe landing in North China's Inner Mongolia Autonomous Region on Sept. 28, 2008. (Xinhua/Li Gang) (nxl)
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CHINA-SHENZHOU-7-RETURN PHASE (CN)
(080928) -- SIZIWANG BANNER, Sept. 28, 2008 (Xinhua) -- Picture taken on Sept. 28, 2008, shows China's Shenzhou-7 spacecraft re-entry module lying at the landing site in Siziwang Banner of north China's Inner Mongolia. The module boarding three Chinese taikonauts landed here Saturday marking China's first-ever spacewalk mission a great success. (Xinhua/Wang Jianmin) (jlp)
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CHINA-SHENZHOU-7-RETURN PHASE (CN)
(080928) -- BEIJING , Sep. 28, 2008 (Xinhua) -- Chinese taikonauts get out of Shenzhou-7 re-entry module after their safe landing in North China's Inner Mongolia Autonomous Region on Sep. 28, 2008. (Xinhua/Li Gang) (jlp)
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CHINA-SHENZHOU-7-RETURN PHASE (CN)
(080928) -- SIZIWANG BANNER, Sept. 28, 2008 (Xinhua) -- Chinese taikonaut Zhai Zhigang is carried in a chair after he got out of Shenzhou-7 re-entry module in North China's Inner Mongolia Autonomous Region on Sept. 28, 2008. (Xinhua/Li Gang) (nxl)
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