TOPICS:
OCT 06, 2011 08:46 PM
OCT 06, 2011 08:48 PM
OCT 06, 2011 08:58 PM
OCT 06, 2011 09:30 PM
OCT 06, 2011 09:38 PM
velvet_petal said:
Holy heck! This is some good stuff, Tommy's obscene operetta, Looch's enunciation, MDWs psychopathic troubadour, AlienSheep as Peter Lorre's bastard cousin...
There's a reason I enunciate in this manner. When I was 6 I bit off the tip of my tongue. I had to reteach myself how to talk, otherwise I have a lisp and run my words together. It actually sounds a bit like the Frankenstein's Monster. 
OCT 06, 2011 09:58 PM
Looch said:
velvet_petal said:
Holy heck! This is some good stuff, Tommy's obscene operetta, Looch's enunciation, MDWs psychopathic troubadour, AlienSheep as Peter Lorre's bastard cousin...
There's a reason I enunciate in this manner. When I was 6 I bit off the tip of my tongue. I had to reteach myself how to talk, otherwise I have a lisp and run my words together. It actually sounds a bit like the Frankenstein's Monster.
I have a weenie lisp. 
Let's be friends.
OCT 06, 2011 10:25 PM
Th0mps0n said:
Looch said:
velvet_petal said:
Holy heck! This is some good stuff, Tommy's obscene operetta, Looch's enunciation, MDWs psychopathic troubadour, AlienSheep as Peter Lorre's bastard cousin...
There's a reason I enunciate in this manner. When I was 6 I bit off the tip of my tongue. I had to reteach myself how to talk, otherwise I have a lisp and run my words together. It actually sounds a bit like the Frankenstein's Monster.
I have a weenie lisp. Let's be friends.
We're already friends. 
OCT 06, 2011 10:29 PM
Yes... Let the random silliness flow through you. 
OCT 06, 2011 10:32 PM
LIES AND SLA-Oh wait.
OCT 06, 2011 10:37 PM
OCT 06, 2011 10:43 PM
OCT 06, 2011 10:44 PM
OCT 06, 2011 10:48 PM
OCT 06, 2011 10:53 PM
velvet_petal said:
Holy heck! This is some good stuff, Tommy's obscene operetta, Looch's enunciation, MDWs psychopathic troubadour, AlienSheep as Peter Lorre's bastard cousin...
I've watched Aladdin way too many times.
OCT 08, 2011 07:22 PM
OCT 08, 2011 09:39 PM
OCT 08, 2011 09:53 PM
Do like.
OCT 09, 2011 11:27 AM
OCT 09, 2011 12:07 PM
velvet_petal said:
AlienSheep said:
Ding Dong! The Witch is dead. Which old Witch? The Wicked Witch!
Ding Dong! The Wicked Witch is dead.
Wake up - sleepy head, rub your eyes, get out of bed.
Wake up, the Wicked Witch is dead. She's gone where the goblins go,
Below - below - below. Yo-ho, let's open up and sing and ring the bells out.
Ding Dong' the merry-oh, sing it high, sing it low.
Let them know
The Wicked Witch is dead!
I started singing the Nirvana live song you were playing...
OCT 09, 2011 06:17 PM
We introduce a spectroscopic method that determines nonlinear quantum mechanical response functions beyond the optical diffraction limit and allows direct imaging of nanoscale coherence. In established coherent two-dimensional (2D) spectroscopy, four-wave–mixing responses are measured using three ingoing waves and one outgoing wave; thus, the method is diffraction-limited in spatial resolution. In coherent 2D nanoscopy, we use four ingoing waves and detect the final state via photoemission electron microscopy, which has 50-nanometer spatial resolution. We recorded local nanospectra from a corrugated silver surface and observed subwavelength 2D line shape variations. Plasmonic phase coherence of localized excitations persisted for about 100 femtoseconds and exhibited coherent beats. The observations are best explained by a model in which coupled oscillators lead to Fano-like resonances in the hybridized dark- and bright-mode response.
OCT 11, 2011 12:03 AM
AlienSheep said:
We introduce a spectroscopic method that determines nonlinear quantum mechanical response functions beyond the optical diffraction limit and allows direct imaging of nanoscale coherence. In established coherent two-dimensional (2D) spectroscopy, four-wave–mixing responses are measured using three ingoing waves and one outgoing wave; thus, the method is diffraction-limited in spatial resolution. In coherent 2D nanoscopy, we use four ingoing waves and detect the final state via photoemission electron microscopy, which has 50-nanometer spatial resolution. We recorded local nanospectra from a corrugated silver surface and observed subwavelength 2D line shape variations. Plasmonic phase coherence of localized excitations persisted for about 100 femtoseconds and exhibited coherent beats. The observations are best explained by a model in which coupled oscillators lead to Fano-like resonances in the hybridized dark- and bright-mode response.
OCT 11, 2011 12:55 AM
Cassiel said:
AlienSheep said:
We introduce a spectroscopic method that determines nonlinear quantum mechanical response functions beyond the optical diffraction limit and allows direct imaging of nanoscale coherence. In established coherent two-dimensional (2D) spectroscopy, four-wave–mixing responses are measured using three ingoing waves and one outgoing wave; thus, the method is diffraction-limited in spatial resolution. In coherent 2D nanoscopy, we use four ingoing waves and detect the final state via photoemission electron microscopy, which has 50-nanometer spatial resolution. We recorded local nanospectra from a corrugated silver surface and observed subwavelength 2D line shape variations. Plasmonic phase coherence of localized excitations persisted for about 100 femtoseconds and exhibited coherent beats. The observations are best explained by a model in which coupled oscillators lead to Fano-like resonances in the hybridized dark- and bright-mode response.
Woah well done.... 
OCT 11, 2011 02:06 AM
OCT 11, 2011 02:15 AM
Cassiel said:
AlienSheep said:
We introduce a spectroscopic method that determines nonlinear quantum mechanical response functions beyond the optical diffraction limit and allows direct imaging of nanoscale coherence. In established coherent two-dimensional (2D) spectroscopy, four-wave–mixing responses are measured using three ingoing waves and one outgoing wave; thus, the method is diffraction-limited in spatial resolution. In coherent 2D nanoscopy, we use four ingoing waves and detect the final state via photoemission electron microscopy, which has 50-nanometer spatial resolution. We recorded local nanospectra from a corrugated silver surface and observed subwavelength 2D line shape variations. Plasmonic phase coherence of localized excitations persisted for about 100 femtoseconds and exhibited coherent beats. The observations are best explained by a model in which coupled oscillators lead to Fano-like resonances in the hybridized dark- and bright-mode response.
HA! Very nice...
It's interesting hearing everyone's voices.
AlienSheep
La Quinta, CA
August 2008
OCT 06, 2011 08:44 PM