Joined: Sun Oct 17, 2004 12:40 am Posts: 25451 Location: 111 Archer Ave.
Quote:
Instantons in UV SYM theory are SU(Q5) gauge fields A6,7,8,9(ξa; x6, ..., x9) with field strengths which satisfy F=∗4F, where ∗4 is the epsilon in M4 and ξa are the moduli parameters. The dimension of moduli space for Q1 in scalar decoupling SU(Q5) is 4k
Is this a clever equation that comes off as gibberish to anyone without an inclination towards (quantum?) physics? For as long as I can remember, I've wondered about this signature. What does it mean? What are it's implications? Is it a joke? Is it the secret to life?
Instantons in UV SYM theory are SU(Q5) gauge fields A6,7,8,9(ξa; x6, ..., x9) with field strengths which satisfy F=∗4F, where ∗4 is the epsilon in M4 and ξa are the moduli parameters. The dimension of moduli space for Q1 in scalar decoupling SU(Q5) is 4k
Is this a clever equation that comes off as gibberish to anyone without an inclination towards (quantum?) physics? For as long as I can remember, I've wondered about this signature. What does it mean? What are it's implications? Is it a joke? Is it the secret to life?
I think that signature must imply that he's smarter than all of us.
_________________ "A waffle is like a pancake with a syrup trap." - Mitch Hedberg
Instantons in UV SYM theory are SU(Q5) gauge fields A6,7,8,9(ξa; x6, ..., x9) with field strengths which satisfy F=∗4F, where ∗4 is the epsilon in M4 and ξa are the moduli parameters. The dimension of moduli space for Q1 in scalar decoupling SU(Q5) is 4k
Is this a clever equation that comes off as gibberish to anyone without an inclination towards (quantum?) physics? For as long as I can remember, I've wondered about this signature. What does it mean? What are it's implications? Is it a joke? Is it the secret to life?
I think that signature must imply that he's smarter than all of us.
Instantons in UV SYM theory are SU(Q5) gauge fields A6,7,8,9(ξa; x6, ..., x9) with field strengths which satisfy F=∗4F, where ∗4 is the epsilon in M4 and ξa are the moduli parameters. The dimension of moduli space for Q1 in scalar decoupling SU(Q5) is 4k
Is this a clever equation that comes off as gibberish to anyone without an inclination towards (quantum?) physics? For as long as I can remember, I've wondered about this signature. What does it mean? What are it's implications? Is it a joke? Is it the secret to life?
I think that signature must imply that he's smarter than all of us.
Why does he have to rub our noses in it though?
I don't know. If I really applied myself (I'm not planning on it!) I could probably figure out what that signature means, though. Just sayin..
_________________ "A waffle is like a pancake with a syrup trap." - Mitch Hedberg
Instantons in UV SYM theory are SU(Q5) gauge fields A6,7,8,9(ξa; x6, ..., x9) with field strengths which satisfy F=∗4F, where ∗4 is the epsilon in M4 and ξa are the moduli parameters. The dimension of moduli space for Q1 in scalar decoupling SU(Q5) is 4k
Is this a clever equation that comes off as gibberish to anyone without an inclination towards (quantum?) physics? For as long as I can remember, I've wondered about this signature. What does it mean? What are it's implications? Is it a joke? Is it the secret to life?
I think that signature must imply that he's smarter than all of us.
Why does he have to rub our noses in it though?
I don't know. If I really applied myself (I'm not planning on it!) I could probably figure out what that signature means, though. Just sayin..
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