Naples, Italy — Beneath the honking horns and operatic yelling of Naples, probably the most blissfully chaotic metropolis in Italy, archeologist Raffaella Bosso descends into the deafening silence of an underground maze, zigzagging again in time roughly 2,300 years.
Earlier than the Historical Romans, it was the Historical Greeks who colonized Naples, abandoning traces of life, and demise, inside historical burial chambers, she says.
She factors a flashlight at a stone-relief tombstone that depicts the legs and toes of these buried inside.
“There are two individuals, a person and a lady” on this one tomb, she explains. “Usually you’ll find eight or much more.”
This tomb was found in 1981, the old school means, by digging.
Now, archeologists are becoming a member of forces with physicists, buying and selling their pickaxes for subatomic particle detectors in regards to the measurement of a family microwave.
Due to breakthrough know-how, particle physicists like Valeri Tioukov can use them to see by lots of of toes of rock, regardless of the residence constructing positioned 60 toes above us.
“It is similar to radiography,” he says, as he locations his particle detector beside the damp wall, nonetheless adorned by colourful floral frescoes.
Archeologists lengthy suspected there have been extra chambers on the opposite aspect of the wall. However simply to peek, they might have needed to break them down.
Due to this detector, they now know for positive, they usually did not even have to make use of a shovel.
To grasp the know-how at work, Tioukov takes us to his laboratory on the College of Naples, the place researchers scour the photographs from that detector.
Particularly, they’re on the lookout for muons, cosmic rays left over from the Huge Bang.
The muon detector tracks and counts the muons passing by the construction, then determines the density of the construction’s inside area by monitoring the variety of muons that cross by it.
On the burial chamber, it captured about 10 million muons within the span of 28 days.
“There is a muon proper there,” says Tioukov, pointing to a squiggly line he is blown up utilizing a microscope.
After months of painstaking evaluation, Tioukov and his crew are in a position to put collectively a three-dimensional mannequin of that hidden burial chamber, closed to human eyes for hundreds of years, now opened due to particle physics.
What looks like science fiction can be getting used to peer contained in the pyramids in Egypt, chambers beneath volcanoes, and even deal with most cancers, says Professor Giovanni De Lellis.
“Particularly cancers that are deep contained in the physique,” he says. “This know-how is getting used to measure potential injury to wholesome tissue surrounding the most cancers. It’s extremely exhausting to foretell the breakthrough that this know-how might truly carry into any of those fields, as a result of now we have by no means noticed objects with this accuracy.”
“It is a new period,” he marvels.
Naples, Italy — Beneath the honking horns and operatic yelling of Naples, probably the most blissfully chaotic metropolis in Italy, archeologist Raffaella Bosso descends into the deafening silence of an underground maze, zigzagging again in time roughly 2,300 years.
Earlier than the Historical Romans, it was the Historical Greeks who colonized Naples, abandoning traces of life, and demise, inside historical burial chambers, she says.
She factors a flashlight at a stone-relief tombstone that depicts the legs and toes of these buried inside.
“There are two individuals, a person and a lady” on this one tomb, she explains. “Usually you’ll find eight or much more.”
This tomb was found in 1981, the old school means, by digging.
Now, archeologists are becoming a member of forces with physicists, buying and selling their pickaxes for subatomic particle detectors in regards to the measurement of a family microwave.
Due to breakthrough know-how, particle physicists like Valeri Tioukov can use them to see by lots of of toes of rock, regardless of the residence constructing positioned 60 toes above us.
“It is similar to radiography,” he says, as he locations his particle detector beside the damp wall, nonetheless adorned by colourful floral frescoes.
Archeologists lengthy suspected there have been extra chambers on the opposite aspect of the wall. However simply to peek, they might have needed to break them down.
Due to this detector, they now know for positive, they usually did not even have to make use of a shovel.
To grasp the know-how at work, Tioukov takes us to his laboratory on the College of Naples, the place researchers scour the photographs from that detector.
Particularly, they’re on the lookout for muons, cosmic rays left over from the Huge Bang.
The muon detector tracks and counts the muons passing by the construction, then determines the density of the construction’s inside area by monitoring the variety of muons that cross by it.
On the burial chamber, it captured about 10 million muons within the span of 28 days.
“There is a muon proper there,” says Tioukov, pointing to a squiggly line he is blown up utilizing a microscope.
After months of painstaking evaluation, Tioukov and his crew are in a position to put collectively a three-dimensional mannequin of that hidden burial chamber, closed to human eyes for hundreds of years, now opened due to particle physics.
What looks like science fiction can be getting used to peer contained in the pyramids in Egypt, chambers beneath volcanoes, and even deal with most cancers, says Professor Giovanni De Lellis.
“Particularly cancers that are deep contained in the physique,” he says. “This know-how is getting used to measure potential injury to wholesome tissue surrounding the most cancers. It’s extremely exhausting to foretell the breakthrough that this know-how might truly carry into any of those fields, as a result of now we have by no means noticed objects with this accuracy.”
“It is a new period,” he marvels.
Naples, Italy — Beneath the honking horns and operatic yelling of Naples, probably the most blissfully chaotic metropolis in Italy, archeologist Raffaella Bosso descends into the deafening silence of an underground maze, zigzagging again in time roughly 2,300 years.
Earlier than the Historical Romans, it was the Historical Greeks who colonized Naples, abandoning traces of life, and demise, inside historical burial chambers, she says.
She factors a flashlight at a stone-relief tombstone that depicts the legs and toes of these buried inside.
“There are two individuals, a person and a lady” on this one tomb, she explains. “Usually you’ll find eight or much more.”
This tomb was found in 1981, the old school means, by digging.
Now, archeologists are becoming a member of forces with physicists, buying and selling their pickaxes for subatomic particle detectors in regards to the measurement of a family microwave.
Due to breakthrough know-how, particle physicists like Valeri Tioukov can use them to see by lots of of toes of rock, regardless of the residence constructing positioned 60 toes above us.
“It is similar to radiography,” he says, as he locations his particle detector beside the damp wall, nonetheless adorned by colourful floral frescoes.
Archeologists lengthy suspected there have been extra chambers on the opposite aspect of the wall. However simply to peek, they might have needed to break them down.
Due to this detector, they now know for positive, they usually did not even have to make use of a shovel.
To grasp the know-how at work, Tioukov takes us to his laboratory on the College of Naples, the place researchers scour the photographs from that detector.
Particularly, they’re on the lookout for muons, cosmic rays left over from the Huge Bang.
The muon detector tracks and counts the muons passing by the construction, then determines the density of the construction’s inside area by monitoring the variety of muons that cross by it.
On the burial chamber, it captured about 10 million muons within the span of 28 days.
“There is a muon proper there,” says Tioukov, pointing to a squiggly line he is blown up utilizing a microscope.
After months of painstaking evaluation, Tioukov and his crew are in a position to put collectively a three-dimensional mannequin of that hidden burial chamber, closed to human eyes for hundreds of years, now opened due to particle physics.
What looks like science fiction can be getting used to peer contained in the pyramids in Egypt, chambers beneath volcanoes, and even deal with most cancers, says Professor Giovanni De Lellis.
“Particularly cancers that are deep contained in the physique,” he says. “This know-how is getting used to measure potential injury to wholesome tissue surrounding the most cancers. It’s extremely exhausting to foretell the breakthrough that this know-how might truly carry into any of those fields, as a result of now we have by no means noticed objects with this accuracy.”
“It is a new period,” he marvels.
Naples, Italy — Beneath the honking horns and operatic yelling of Naples, probably the most blissfully chaotic metropolis in Italy, archeologist Raffaella Bosso descends into the deafening silence of an underground maze, zigzagging again in time roughly 2,300 years.
Earlier than the Historical Romans, it was the Historical Greeks who colonized Naples, abandoning traces of life, and demise, inside historical burial chambers, she says.
She factors a flashlight at a stone-relief tombstone that depicts the legs and toes of these buried inside.
“There are two individuals, a person and a lady” on this one tomb, she explains. “Usually you’ll find eight or much more.”
This tomb was found in 1981, the old school means, by digging.
Now, archeologists are becoming a member of forces with physicists, buying and selling their pickaxes for subatomic particle detectors in regards to the measurement of a family microwave.
Due to breakthrough know-how, particle physicists like Valeri Tioukov can use them to see by lots of of toes of rock, regardless of the residence constructing positioned 60 toes above us.
“It is similar to radiography,” he says, as he locations his particle detector beside the damp wall, nonetheless adorned by colourful floral frescoes.
Archeologists lengthy suspected there have been extra chambers on the opposite aspect of the wall. However simply to peek, they might have needed to break them down.
Due to this detector, they now know for positive, they usually did not even have to make use of a shovel.
To grasp the know-how at work, Tioukov takes us to his laboratory on the College of Naples, the place researchers scour the photographs from that detector.
Particularly, they’re on the lookout for muons, cosmic rays left over from the Huge Bang.
The muon detector tracks and counts the muons passing by the construction, then determines the density of the construction’s inside area by monitoring the variety of muons that cross by it.
On the burial chamber, it captured about 10 million muons within the span of 28 days.
“There is a muon proper there,” says Tioukov, pointing to a squiggly line he is blown up utilizing a microscope.
After months of painstaking evaluation, Tioukov and his crew are in a position to put collectively a three-dimensional mannequin of that hidden burial chamber, closed to human eyes for hundreds of years, now opened due to particle physics.
What looks like science fiction can be getting used to peer contained in the pyramids in Egypt, chambers beneath volcanoes, and even deal with most cancers, says Professor Giovanni De Lellis.
“Particularly cancers that are deep contained in the physique,” he says. “This know-how is getting used to measure potential injury to wholesome tissue surrounding the most cancers. It’s extremely exhausting to foretell the breakthrough that this know-how might truly carry into any of those fields, as a result of now we have by no means noticed objects with this accuracy.”
“It is a new period,” he marvels.
Naples, Italy — Beneath the honking horns and operatic yelling of Naples, probably the most blissfully chaotic metropolis in Italy, archeologist Raffaella Bosso descends into the deafening silence of an underground maze, zigzagging again in time roughly 2,300 years.
Earlier than the Historical Romans, it was the Historical Greeks who colonized Naples, abandoning traces of life, and demise, inside historical burial chambers, she says.
She factors a flashlight at a stone-relief tombstone that depicts the legs and toes of these buried inside.
“There are two individuals, a person and a lady” on this one tomb, she explains. “Usually you’ll find eight or much more.”
This tomb was found in 1981, the old school means, by digging.
Now, archeologists are becoming a member of forces with physicists, buying and selling their pickaxes for subatomic particle detectors in regards to the measurement of a family microwave.
Due to breakthrough know-how, particle physicists like Valeri Tioukov can use them to see by lots of of toes of rock, regardless of the residence constructing positioned 60 toes above us.
“It is similar to radiography,” he says, as he locations his particle detector beside the damp wall, nonetheless adorned by colourful floral frescoes.
Archeologists lengthy suspected there have been extra chambers on the opposite aspect of the wall. However simply to peek, they might have needed to break them down.
Due to this detector, they now know for positive, they usually did not even have to make use of a shovel.
To grasp the know-how at work, Tioukov takes us to his laboratory on the College of Naples, the place researchers scour the photographs from that detector.
Particularly, they’re on the lookout for muons, cosmic rays left over from the Huge Bang.
The muon detector tracks and counts the muons passing by the construction, then determines the density of the construction’s inside area by monitoring the variety of muons that cross by it.
On the burial chamber, it captured about 10 million muons within the span of 28 days.
“There is a muon proper there,” says Tioukov, pointing to a squiggly line he is blown up utilizing a microscope.
After months of painstaking evaluation, Tioukov and his crew are in a position to put collectively a three-dimensional mannequin of that hidden burial chamber, closed to human eyes for hundreds of years, now opened due to particle physics.
What looks like science fiction can be getting used to peer contained in the pyramids in Egypt, chambers beneath volcanoes, and even deal with most cancers, says Professor Giovanni De Lellis.
“Particularly cancers that are deep contained in the physique,” he says. “This know-how is getting used to measure potential injury to wholesome tissue surrounding the most cancers. It’s extremely exhausting to foretell the breakthrough that this know-how might truly carry into any of those fields, as a result of now we have by no means noticed objects with this accuracy.”
“It is a new period,” he marvels.
Naples, Italy — Beneath the honking horns and operatic yelling of Naples, probably the most blissfully chaotic metropolis in Italy, archeologist Raffaella Bosso descends into the deafening silence of an underground maze, zigzagging again in time roughly 2,300 years.
Earlier than the Historical Romans, it was the Historical Greeks who colonized Naples, abandoning traces of life, and demise, inside historical burial chambers, she says.
She factors a flashlight at a stone-relief tombstone that depicts the legs and toes of these buried inside.
“There are two individuals, a person and a lady” on this one tomb, she explains. “Usually you’ll find eight or much more.”
This tomb was found in 1981, the old school means, by digging.
Now, archeologists are becoming a member of forces with physicists, buying and selling their pickaxes for subatomic particle detectors in regards to the measurement of a family microwave.
Due to breakthrough know-how, particle physicists like Valeri Tioukov can use them to see by lots of of toes of rock, regardless of the residence constructing positioned 60 toes above us.
“It is similar to radiography,” he says, as he locations his particle detector beside the damp wall, nonetheless adorned by colourful floral frescoes.
Archeologists lengthy suspected there have been extra chambers on the opposite aspect of the wall. However simply to peek, they might have needed to break them down.
Due to this detector, they now know for positive, they usually did not even have to make use of a shovel.
To grasp the know-how at work, Tioukov takes us to his laboratory on the College of Naples, the place researchers scour the photographs from that detector.
Particularly, they’re on the lookout for muons, cosmic rays left over from the Huge Bang.
The muon detector tracks and counts the muons passing by the construction, then determines the density of the construction’s inside area by monitoring the variety of muons that cross by it.
On the burial chamber, it captured about 10 million muons within the span of 28 days.
“There is a muon proper there,” says Tioukov, pointing to a squiggly line he is blown up utilizing a microscope.
After months of painstaking evaluation, Tioukov and his crew are in a position to put collectively a three-dimensional mannequin of that hidden burial chamber, closed to human eyes for hundreds of years, now opened due to particle physics.
What looks like science fiction can be getting used to peer contained in the pyramids in Egypt, chambers beneath volcanoes, and even deal with most cancers, says Professor Giovanni De Lellis.
“Particularly cancers that are deep contained in the physique,” he says. “This know-how is getting used to measure potential injury to wholesome tissue surrounding the most cancers. It’s extremely exhausting to foretell the breakthrough that this know-how might truly carry into any of those fields, as a result of now we have by no means noticed objects with this accuracy.”
“It is a new period,” he marvels.
Naples, Italy — Beneath the honking horns and operatic yelling of Naples, probably the most blissfully chaotic metropolis in Italy, archeologist Raffaella Bosso descends into the deafening silence of an underground maze, zigzagging again in time roughly 2,300 years.
Earlier than the Historical Romans, it was the Historical Greeks who colonized Naples, abandoning traces of life, and demise, inside historical burial chambers, she says.
She factors a flashlight at a stone-relief tombstone that depicts the legs and toes of these buried inside.
“There are two individuals, a person and a lady” on this one tomb, she explains. “Usually you’ll find eight or much more.”
This tomb was found in 1981, the old school means, by digging.
Now, archeologists are becoming a member of forces with physicists, buying and selling their pickaxes for subatomic particle detectors in regards to the measurement of a family microwave.
Due to breakthrough know-how, particle physicists like Valeri Tioukov can use them to see by lots of of toes of rock, regardless of the residence constructing positioned 60 toes above us.
“It is similar to radiography,” he says, as he locations his particle detector beside the damp wall, nonetheless adorned by colourful floral frescoes.
Archeologists lengthy suspected there have been extra chambers on the opposite aspect of the wall. However simply to peek, they might have needed to break them down.
Due to this detector, they now know for positive, they usually did not even have to make use of a shovel.
To grasp the know-how at work, Tioukov takes us to his laboratory on the College of Naples, the place researchers scour the photographs from that detector.
Particularly, they’re on the lookout for muons, cosmic rays left over from the Huge Bang.
The muon detector tracks and counts the muons passing by the construction, then determines the density of the construction’s inside area by monitoring the variety of muons that cross by it.
On the burial chamber, it captured about 10 million muons within the span of 28 days.
“There is a muon proper there,” says Tioukov, pointing to a squiggly line he is blown up utilizing a microscope.
After months of painstaking evaluation, Tioukov and his crew are in a position to put collectively a three-dimensional mannequin of that hidden burial chamber, closed to human eyes for hundreds of years, now opened due to particle physics.
What looks like science fiction can be getting used to peer contained in the pyramids in Egypt, chambers beneath volcanoes, and even deal with most cancers, says Professor Giovanni De Lellis.
“Particularly cancers that are deep contained in the physique,” he says. “This know-how is getting used to measure potential injury to wholesome tissue surrounding the most cancers. It’s extremely exhausting to foretell the breakthrough that this know-how might truly carry into any of those fields, as a result of now we have by no means noticed objects with this accuracy.”
“It is a new period,” he marvels.
Naples, Italy — Beneath the honking horns and operatic yelling of Naples, probably the most blissfully chaotic metropolis in Italy, archeologist Raffaella Bosso descends into the deafening silence of an underground maze, zigzagging again in time roughly 2,300 years.
Earlier than the Historical Romans, it was the Historical Greeks who colonized Naples, abandoning traces of life, and demise, inside historical burial chambers, she says.
She factors a flashlight at a stone-relief tombstone that depicts the legs and toes of these buried inside.
“There are two individuals, a person and a lady” on this one tomb, she explains. “Usually you’ll find eight or much more.”
This tomb was found in 1981, the old school means, by digging.
Now, archeologists are becoming a member of forces with physicists, buying and selling their pickaxes for subatomic particle detectors in regards to the measurement of a family microwave.
Due to breakthrough know-how, particle physicists like Valeri Tioukov can use them to see by lots of of toes of rock, regardless of the residence constructing positioned 60 toes above us.
“It is similar to radiography,” he says, as he locations his particle detector beside the damp wall, nonetheless adorned by colourful floral frescoes.
Archeologists lengthy suspected there have been extra chambers on the opposite aspect of the wall. However simply to peek, they might have needed to break them down.
Due to this detector, they now know for positive, they usually did not even have to make use of a shovel.
To grasp the know-how at work, Tioukov takes us to his laboratory on the College of Naples, the place researchers scour the photographs from that detector.
Particularly, they’re on the lookout for muons, cosmic rays left over from the Huge Bang.
The muon detector tracks and counts the muons passing by the construction, then determines the density of the construction’s inside area by monitoring the variety of muons that cross by it.
On the burial chamber, it captured about 10 million muons within the span of 28 days.
“There is a muon proper there,” says Tioukov, pointing to a squiggly line he is blown up utilizing a microscope.
After months of painstaking evaluation, Tioukov and his crew are in a position to put collectively a three-dimensional mannequin of that hidden burial chamber, closed to human eyes for hundreds of years, now opened due to particle physics.
What looks like science fiction can be getting used to peer contained in the pyramids in Egypt, chambers beneath volcanoes, and even deal with most cancers, says Professor Giovanni De Lellis.
“Particularly cancers that are deep contained in the physique,” he says. “This know-how is getting used to measure potential injury to wholesome tissue surrounding the most cancers. It’s extremely exhausting to foretell the breakthrough that this know-how might truly carry into any of those fields, as a result of now we have by no means noticed objects with this accuracy.”
“It is a new period,” he marvels.