Q

Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl








Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl






Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl





Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl

















Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl








Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl






Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl





Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl
















Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl








Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl






Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl





Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl
















Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl






Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl





Q


quasar J1427+3312

High-resolution double morphology of the most distant known radio quasar at z = 6.12
Astronomy & Astrophysics
"The source J1427+3312 (z = 6.12) has recently been identified as the first and so far the only known radio-loud quasar at z > 6."
http://www.aanda.org/index.php?option=article&access=standard&Itemid=129&url=/articles/aa/abs/2008/24/aa10040-08/aa10040-08.html
Radio astronomers detect 'baby quasar' near the edge of the visible Universe
"An international group of radio astronomers has found an unexpected morphology in the most distant radio quasar ever. This was done using the world's most sensitive network of radio telescopes called the European VLBI Network (EVN). The results of their discovery are published in the Astronomy and Astrophysics journal on 5 June.
Being so distant, the quasar J1427+3312 is located relatively close to the inner edge of the so called Epoch of Reionisation (EoR) - the cosmological 'Dark Ages'."
http://www.physorg.com/news131979058.html


Quest
http://quest.nasa.gov/



Quantum mechanics
Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


LHC: Large Hadron Collider( CERN )
"CERN's Large Hadron Collider, scheduled to begin operating this summer"
Budget Cuts Undermine U.S. Role in Atom-Smasher Project
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


ILC: International Linear Collider
An international team has already developed a $6.6 billion preliminary design for the ILC.


Scientists hope to gain insight into questions such as why ordinary matter has mass, whether the universe is made up of more than three spatial dimensions, and what makes up the universe's mysterious "dark matter."
http://www.wired.com/science/discoveries/news/2008/02/particle_accelerator


量子色力学(QCD)

答えは真空にあります。つまり、真空にはヒッグス粒子がびっしりと埋まっていると考えるのです。他の素粒子は、真空中に埋まったヒッグス粒子を触媒として右巻きと左巻きが合体し、質量をもった粒子になる。これが、現代物理学が予想する質量の起源です
KEK:News@KEK(あなたはなぜ重いのか?)
http://www.kek.jp/newskek/2007/mayjun/supercomputer2.html

02.05.09 最極微の世界に挑戦するLHC計画(2) 〜ヒッグス粒子を探す〜
03.4.17 素粒子理論の大予言 〜ヒッグス場と粒子〜
03.09.11 素粒子の周期律表? 〜ハドロン分光学〜
03.11.20 クォーク4個の新粒子? 〜Belleグループが発見した中間子〜
05.03.03 「魅力」あふれる素粒子? 〜チャームクォークの物理〜
05.06.02 J-PARCのハドロン研究 〜パイ中間子の雲や中性子星のなぞ〜
05.09.29 「奇妙」な粒子の「稀な」反応 〜J-PARCでのK中間子崩壊の研究〜
05.12.15 建設が進むLHCとアトラス 〜実験開始まで約500日〜
06.03.02 スパコンで挑む質量生成の謎 〜国内最速のスーパーコンピュータが稼働〜
07.04.24 プレス発表 量子色力学における自発的対称性の破れを厳密に実証


Q

Quantum mechanics - Wikipedia
http://en.wikipedia.org/wiki/Quantum_mechanics


Quetzalcoatl - Wikipedia
"Quetzalcoatl is often referred to as The Feathered Serpent and was connected to the planet Venus."
http://en.wikipedia.org/wiki/Quetzalcoatl