Observation of a kilogram-scale oscillator near its quantum ground state
(443)
Abbott, B
a
Abbott, R
a
Adhikari, R
a
Ajith, P
b
Allen, B
b,c
Allen, G
d
Amin, R
e
Anderson, S B
a
Anderson, W G
c
Arain, M A
f
Araya, M
a
Armandula, H
a
Armor, P
c
Aso, Y
g
Aston, S
h
Aufmuth, P
i
Aulbert, C
b
Babak, S
b
Ballmer, S
a
Bantilan, H
j
Barish, B C
a
Barker, C
k
Barker, D
k
Barr, B
l
Barriga, P
m
Barton, M A
l
Bastarrika, M
l
Bayer, K
n
Betzwieser, J
a
Beyersdorf, P T
o
Bilenko, I A
p
Billingsley, G
a
Biswas, R
c
Black, E
a
Blackburn, K
a
Blackburn, L
n
Blair, D
m
Bland, B
k
Bodiya, T P
n
Bogue, L
q
Bork, R
a
Boschi, V
a
Bose, S
r
Brady, P R
c
Braginsky, V B
p
Brau, J E
s
Brinkmann, M
b
Brooks, A
a
Brown, D A
t
Brunet, G
n
Bullington, A
d
Buonanno, A
u
Burmeister, O
b
Byer, R L
d
Cadonati, L
v
Cagnoli, G
l
Camp, J B
w
Cannizzo, J
w
Cannon, K
a
Cao, J
n
Cardenas, L
a
Casebolt, T
d
Castaldi, G
x
Cepeda, C
a
Chalkley, E
l
Charlton, P
y
Chatterji, S
a
Chelkowski, S
h
Chen, Y
a,b
Christensen, N
j
Clark, D
d
Clark, J
l
Cokelaer, T
z
Conte, R
aa
Cook, D
k
Corbitt, T
n
Coyne, D
a
Creighton, J D E
c
Cumming, A
l
Cunningham, L
l
Cutler, R M
h
Dalrymple, J
t
Danilishin, S
p
Danzmann, K
b,i
Davies, G
z
DeBra, D
d
Degallaix, J
b
Degree, M
d
Dergachev, V
ab
Desai, S
ac
DeSalvo, R
a
Dhurandhar, S
ad
Diaz M
ae
Dickson, J
af
Dietz, A
z
Donovan, F
n
Dooley, K L
f
Doomes, E E
ag
Drever, R W P
a
Duke, I
n
Dumas, J C
m
Dupuis, R J
a
Dwyer, J G
g
Echols, C
a
Effler, A
k
Ehrens, P
a
Espinoza, E
a
Etzel, T
a
Evans, T
q
Fairhurst, S
z
Fan, Y
m
Fazi, D
a
Fehrmann, H
b
Fejer, M M
d
Finn, L S
ac
Flasch, K
c
Fotopoulos, N
c
Freise, A
h
Frey, R
s
Fricke, T
a,ah
Fritschel, P
n
Frolov, V V
q
Fyffe, M
q
Garofoli, J
k
Gholami, I
b
Giaime, J A
e,q
Giampanis, S
ah
Giardina, K D
q
Goda, K
n
Goetz, E
ab
Goggin, L
a
Gonzalez G
e
Gossler, S
b
Gouaty, R
e
Grant, A
l
Gras, S
m
Gray, C
k
Gray, M
af
Greenhalgh, R J S
ai
Gretarsson, A M
aj
Grimaldi, F
n
Grosso, R
ae
Grote, H
b
Grunewald, S
b
Guenther, M
k
Gustafson, E K
a
Gustafson, R
ab
Hage, B
i
Hallam, J M
h
Hammer, D
c
Hanna, C
e
Hanson, J
q
Harms, J
b
Harry, G
n
Harstad, E
s
Hayama, K
ae
Hayler, T
ai
Heefner, J
a
Heng, I S
l
Hennessy, M
d
Heptonstall, A
l
Hewitson, M
b
Hild, S
h
Hirose, E
t
Hoak, D
q
Hosken, D
ak
Hough, J
l
Huttner, S H
l
Ingram, D
k
Ito, M
s
Ivanov, A
a
Johnson, B
k
Johnson, W W
e
Jones, D I
al
Jones, G
z
Jones, R
l
Ju, L
m
Kalmus, P
g
Kalogera, V
am
Kamat, S
g
Kanner, J
u
Kasprzyk, D
h
Katsavounidis, E
n
Kawabe, K
k
Kawamura, S
an
Kawazoe, F
an
Kells, W
a
Keppel, D G
a
Khalili, F Ya
p
Khan, R
g
Khazanov, E
ao
Kim, C
am
King, P
a
Kisse, J S
n
Klimenko, S
f
Kokeyama, K
an
Kondrashov, V
a
Kopparapu, R K
ac
Kozak, D
a
Kozhevatov, I
ao
Krishnan, B
b
Kwee, P
i
Lam, P K
af
Landry, M
k
Lang, M M
ac
Lantz, B
d
Lazzarini, A
a
Lei, M
a
Leindecker, N
d
Leonhardt, V
an
Leonor, I
s
Libbrecht, K
a
Lin, H
f
Lindquist, P
a
Lockerbie, N A
ap
Lodhia, D
h
Lormand, M
q
Lu, P
d
Lubinski, M
k
Lucianetti, A
f
Luck H
b,i
Machenschalk, B
b
MacInnis, M
n
Mageswaran, M
a
Mailand, K
a
Mandic, V
aq
Marka S
g
Marka Z
g
Markosyan, A
d
Markowitz, J
n
Maros, E
a
Martin, I
l
Martin, R M
f
Marx, J N
a
Mason, K
n
Matichard, F
e
Matone, L
g
Matzner, R
ar
Mavalvala, N
n
McCarthy, R
k
McClelland, D E
af
McGuire, S C
ag
McHugh, M
as
McIntyre, G
a
McIvor, G
ar
McKechan, D
z
McKenzie, K
af
Meier, T
i
Melissinos, A
ah
Mendell, G
k
Mercer, R A
f
Meshkov, S
a
Messenger, C J
b
Meyers, D
a
Miao, H
m
Miller, J
a,l
Minelli, J
ac
Mitra, S
ad
Mitrofanov, V P
p
Mitselmakher, G
f
Mittleman, R
n
Miyakawa, O
a
Moe, B
c
Mohanty, S
ae
Moreno, G
k
Mossavi, K
b
Mow Lowry, C
af
Mueller, G
f
Mukherjee, S
ae
Mukhopadhyay, H
ad
Muller Ebhardt H
b
Munch, J
ak
Murray, P
l
Myers, E
k
Myers, J
k
Nash, T
a
Nelson, J
l
Newton, G
l
Nishizawa, A
an
Numata, K
w
O'Dell, J
ai
Ogin, G
a
O'Reilly, B
q
O'Shaughnessy, R
ac
Ottaway, D J
n
Ottens, R S
f
Overmier, H
q
Owen, B J
ac
Pan, Y
u
Pankow, C
f
Papa, M A
b,c
Parameshwaraiah, V
k
Patel, P
a
Pedraza, M
a
Penn, S
at
Perreca, A
h
Petrie, T
ac
Pinto, I M
x
Pitkin, M
l
Pletsch, H J
b
Plissi, M V
l
Postiglione, F
aa
Principe, M
x
Prix, R
b
Quetschke, V
f
Raab, F
k
Rabeling, D S
af
Radkins, H
k
Rainer, N
b
Rakhmanov, M
au
Ramsunder, M
ac
Rehbein, H
b
Reid, S
l
Reitze, D H
f
Riesen, R
q
Riles, K
ab
Rivera, B
k
Robertson, N A
a,l
Robinson, C
z
Robinson, E L
h
Roddy, S
q
Rodriguez, A
e
Rogan, A M
r
Rollins, J
g
Romano, J D
ae
Romie, J
q
Route, R
d
Rowan, S
l
Rudiger A
b
Ruet, L
n
Russell, P
a
Ryan, K
k
Sakata, S
an
Samidi, M
a
De La Jordana, L Sancho
av
Sandberg, V
k
Sannibale, V
a
Saraf, S
aw
Sarin, P
n
Sathyaprakash, B S
z
Sato, S
an
Saulson, P R
t
Savage, R
k
Savov, P
a
Schediwy, S W
m
Schilling, R
b
Schnabel, R
b
Schofield, R
s
Schutz, B F
b,z
Schwinberg, P
k
Scott, S M
af
Searle, A C
af
Sears, B
a
Seifert, F
b
Sellers, D
q
Sengupta, A S
a
Shawhan, P
u
Shoemaker, D H
n
Sibley, A
q
Siemens, X
c
Sigg, D
k
Sinha, S
d
Sintes, A M
b,av
Slagmolen, B J J
af
Slutsky, J
e
Smith, J R
t
Smith, M R
a
Smith, N D
n
Somiya, K
b
Sorazu, B
l
Stein, L C
n
Stochino, A
a
Stone, R
ae
Strain, K A
l
Strom, D M
s
Stuver, A
q
Summerscales, T Z
ax
Sun, K X
d
Sung, M
e
Sutton, P J
z
Takahashi, H
b
Tanner, D B
f
Taylor, R
a,l
Thacker, J
q
Thorne, K A
ac
Thorne, K S
a
Thuring A
i
Tokmakov, K V
l
Torres, C
q
Torrie, C
l
Traylor, G
q
Trias, M
av
Tyler, W
a
Ugolini, D
ay
Ulmen, J
d
Urbanek, K
d
Vahlbruch, H
i
Van Den Broeck, C
z
Van Der Sluys, M
am
Vass, S
a
Vaulin, R
c
Vecchio, A
h
Veitch, J
h
Veitch, P
ak
Villar, A
a
Vorvick, C
k
Vyatchanin, S P
p
Waldman, S J
a
Wallace, L
a
Ward, H
l
Ward, R
a
Weinert, M
b
Weinstein, A
a
Weiss, R
n
Wen, S
e
Wette, K
af
Whelan, J T
b
Whitcomb, S E
a
Whiting, B F
f
Wilkinson, C
k
Willems, P A
a
Williams, H R
ac
Williams, L
f
Willke, B
b,i
Wilmut, I
ai
Winkler, W
b
Wipf, C C
n
Wiseman, A G
c
Woan, G
l
Wooley, R
q
Worden, J
k
Wu, W
f
Yakushin, I
q
Yamamoto, H
a
Yan, Z
m
Yoshida, S
au
Zanolin, M
aj
Zhang, J
ab
Zhang, L
a
Zhao, C
m
Zotov, N
az
Zucker, M
n
Zweizig, J
a
more..
|
-
1
-
-
11144232978
-
Cavity cooling of a microlever
-
Metzger C H and Karrai K 2004 Cavity cooling of a microlever Nature 432 1002
-
(2004)
Nature
, vol.432
, pp. 1002
-
-
Metzger, C.H.1
Karrai, K.2
-
2
-
-
33750584661
-
Self-cooling of a micromirror by radiation pressure
-
Gigan S, Böhm H, Paternostro M, Blaser F, Langer G, Hertzberg J, Schwab K, Bäuerle D, Aspelmeyer M and Zeilinger A 2006 Self-cooling of a micromirror by radiation pressure Nature 444 67
-
(2006)
Nature
, vol.444
, pp. 67
-
-
Gigan, S.1
Böhm, H.2
Paternostro, M.3
Blaser, F.4
Langer, G.5
Hertzberg, J.6
Schwab, K.7
Bäuerle, D.8
Aspelmeyer, M.9
Zeilinger, A.10
-
3
-
-
33750602437
-
Radiation pressure cooling and optomechanical instability of a micromirror
-
Arcizet O, Cohadon P-F, Briant T, Pinard M and Heidmann A 2006 Radiation pressure cooling and optomechanical instability of a micromirror Nature 444 71
-
(2006)
Nature
, vol.444
, pp. 71
-
-
Arcizet, O.1
Cohadon, P.-F.2
Briant, T.3
Pinard, M.4
Heidmann, A.5
-
4
-
-
33750595448
-
Sub-kelvin optical cooling of a micromechanical resonator
-
Kleckner D and Bouwmeester D 2006 Sub-kelvin optical cooling of a micromechanical resonator Nature 444 75
-
(2006)
Nature
, vol.444
, pp. 75
-
-
Kleckner, D.1
Bouwmeester, D.2
-
5
-
-
33748636436
-
Cooling a nanomechanical resonator with quantum back-action
-
Naik A, Buu O, LaHaye M D, Armour A D, Clerk A A, Blencowe M P and Schwab K C 2006 Cooling a nanomechanical resonator with quantum back-action Nature 443 193
-
(2006)
Nature
, vol.443
, pp. 193
-
-
Naik, A.1
Buu, O.2
LaHaye, M.D.3
Armour, A.D.4
Clerk, A.A.5
Blencowe, M.P.6
Schwab, K.C.7
-
6
-
-
33845517100
-
Radiation pressure cooling of a micromechanical oscillator using dynamical backaction
-
Schliesser A, Del'Haye P, Nooshi N, Vahala K J and Kippenberg T J 2006 Radiation pressure cooling of a micromechanical oscillator using dynamical backaction Phys. Rev. Lett. 97 243905
-
(2006)
Phys. Rev. Lett
, vol.97
, pp. 243905
-
-
Schliesser, A.1
Del'Haye, P.2
Nooshi, N.3
Vahala, K.J.4
Kippenberg, T.J.5
-
7
-
-
34247144206
-
An all-optical trap for a gram-scale mirror
-
Corbitt T, Chen Y, Innerhofer E, Müller-Ebhardt H, Ottaway D, Rehbein H, Sigg D, Whitcomb S, Wipf C and Mavalvala N 2007 An all-optical trap for a gram-scale mirror Phys. Rev. Lett. 98 150802
-
(2007)
Phys. Rev. Lett
, vol.98
, pp. 150802
-
-
Corbitt, T.1
Chen, Y.2
Innerhofer, E.3
Müller-Ebhardt, H.4
Ottaway, D.5
Rehbein, H.6
Sigg, D.7
Whitcomb, S.8
Wipf, C.9
Mavalvala, N.10
-
8
-
-
34047122522
-
Stable, mode-matched, medium-finesse optical cavity incorporating amicrocantilever mirror
-
Harris J G E, Zwickl B M and Jayich A M 2007 Stable, mode-matched, medium-finesse optical cavity incorporating amicrocantilever mirror Rev. Sci. Instrum. 78 013107
-
(2007)
Rev. Sci. Instrum
, vol.78
, pp. 013107
-
-
Harris, J.G.E.1
Zwickl, B.M.2
Jayich, A.M.3
-
9
-
-
34547305543
-
Feedback cooling of a cantilever's fundamental mode below 5mK
-
Poggio M, Degen C L, Mamin H J and Rugar D 2007 Feedback cooling of a cantilever's fundamental mode below 5mK Phys. Rev. Lett. 99 017201
-
(2007)
Phys. Rev. Lett
, vol.99
, pp. 017201
-
-
Poggio, M.1
Degen, C.L.2
Mamin, H.J.3
Rugar, D.4
-
10
-
-
35348997929
-
Optical dilution and feedback cooling of a gram-scale oscillator to 6.9mK
-
Corbitt T, Wipf C, Bodiya T, Ottaway D, Sigg D, Smith N, Whitcomb S and Mavalvala N 2007 Optical dilution and feedback cooling of a gram-scale oscillator to 6.9mK Phys. Rev. Lett. 99 160801
-
(2007)
Phys. Rev. Lett
, vol.99
, pp. 160801
-
-
Corbitt, T.1
Wipf, C.2
Bodiya, T.3
Ottaway, D.4
Sigg, D.5
Smith, N.6
Whitcomb, S.7
Mavalvala, N.8
-
11
-
-
40749152774
-
Cooling of a gram-scale cantilever flexure to 70mK with a servo-modified optical spring
-
Mow-Lowry C M, Mullavey A J, Goßler S, Gray M B and McClelland D E 2008 Cooling of a gram-scale cantilever flexure to 70mK with a servo-modified optical spring Phys. Rev. Lett. 100 010801
-
(2008)
Phys. Rev. Lett
, vol.100
, pp. 010801
-
-
Mow-Lowry, C.M.1
Mullavey, A.J.2
Goßler, S.3
Gray, M.B.4
McClelland, D.E.5
-
12
-
-
48249101279
-
Feedback cooling of the normal modes of a massive electromechanical system to submillikelvin temperature
-
Vinante A et al 2008 Feedback cooling of the normal modes of a massive electromechanical system to submillikelvin temperature Phys. Rev. Lett. 101 033601
-
(2008)
Phys. Rev. Lett
, vol.101
, pp. 033601
-
-
Vinante, A.1
-
13
-
-
46649094976
-
Measuring nanomechanical motion with a microwave cavity interferometer
-
Regal C A, Teufel J D and Lehnert K W 2008 Measuring nanomechanical motion with a microwave cavity interferometer Nat. Phys. 4 555
-
(2008)
Nat. Phys
, vol.4
, pp. 555
-
-
Regal, C.A.1
Teufel, J.D.2
Lehnert, K.W.3
-
14
-
-
67949120839
-
-
Schliesser A, Arcizet O, Rivire R and Kippenberg T J 2009 Resolved-sideband cooling and measurement of a micromechanical oscillator close to the quantum limit arXiv:0901.1456
-
Schliesser A, Arcizet O, Rivire R and Kippenberg T J 2009 Resolved-sideband cooling and measurement of a micromechanical oscillator close to the quantum limit arXiv:0901.1456
-
-
-
-
15
-
-
67949085620
-
-
Groeblacher S, Hertzberg J B, Vanner M R, Gigan S, Schwab K and Aspelmeyer M 2009 Demonstration of an ultracold micro-optomechanical oscillator in a cryogenic cavity arXiv:0901.1801
-
(1801)
Demonstration of an ultracold micro-optomechanical oscillator in a cryogenic cavity arXiv
, pp. 0901
-
-
Groeblacher, S.1
Hertzberg, J.B.2
Vanner, M.R.3
Gigan, S.4
Schwab, K.5
Aspelmeyer, M.6
-
16
-
-
40449086353
-
Strong dispersive coupling of a high-finesse cavity to a micromechanical membrane
-
Thompson J D, Zwickl B M, Jayich A M, Marquardt F, Girvin S M and Harris J G E 2008 Strong dispersive coupling of a high-finesse cavity to a micromechanical membrane Nature 452 72
-
(2008)
Nature
, vol.452
, pp. 72
-
-
Thompson, J.D.1
Zwickl, B.M.2
Jayich, A.M.3
Marquardt, F.4
Girvin, S.M.5
Harris, J.G.E.6
-
17
-
-
33144464962
-
Squeezed-state source using radiation-pressure-induced rigidity
-
Corbitt T, Chen Y, Khalili F, Ottaway D, Vyatchanin S, Whitcomb S and Mavalvala N 2006 Squeezed-state source using radiation-pressure-induced rigidity Phys. Rev. A 73 023801
-
(2006)
Phys. Rev. A
, vol.73
, pp. 023801
-
-
Corbitt, T.1
Chen, Y.2
Khalili, F.3
Ottaway, D.4
Vyatchanin, S.5
Whitcomb, S.6
Mavalvala, N.7
-
18
-
-
42749103681
-
Generation of squeezed states of nanomechanical resonators by reservoir engineering
-
Rabl P, Shnirman A and Zoller P 2004 Generation of squeezed states of nanomechanical resonators by reservoir engineering Phys. Rev. B 70 205304
-
(2004)
Phys. Rev. B
, vol.70
, pp. 205304
-
-
Rabl, P.1
Shnirman, A.2
Zoller, P.3
-
19
-
-
28344457966
-
Squeezing of a nanomechanical resonator by quantum nondemolition measurement and feedback
-
Ruskov R, Schwab K and Korotkov A N 2005 Squeezing of a nanomechanical resonator by quantum nondemolition measurement and feedback Phys. Rev. B 71 235407
-
(2005)
Phys. Rev. B
, vol.71
, pp. 235407
-
-
Ruskov, R.1
Schwab, K.2
Korotkov, A.N.3
-
20
-
-
54249135511
-
Back-action evasion and squeezing of a mechanical resonator using a cavity detector
-
Clerk A A, Marquardt F and Jacobs K 2008 Back-action evasion and squeezing of a mechanical resonator using a cavity detector New J. Phys. 10 095010
-
(2008)
New J. Phys
, vol.10
, pp. 095010
-
-
Clerk, A.A.1
Marquardt, F.2
Jacobs, K.3
-
21
-
-
0000824136
-
Preparation of nonclassical states in cavities with a moving mirror
-
Bose S, Jacobs K and Knight P L 1997 Preparation of nonclassical states in cavities with a moving mirror Phys. Rev. A 56 4175
-
(1997)
Phys. Rev. A
, vol.56
, pp. 4175
-
-
Bose, S.1
Jacobs, K.2
Knight, P.L.3
-
22
-
-
0037041095
-
Entanglement and decoherence of a micromechanical resonator via coupling to a Cooper-pair box
-
Armour A D, Blencowe M P and Schwab K C 2002 Entanglement and decoherence of a micromechanical resonator via coupling to a Cooper-pair box Phys. Rev. Lett. 88 148301
-
(2002)
Phys. Rev. Lett
, vol.88
, pp. 148301
-
-
Armour, A.D.1
Blencowe, M.P.2
Schwab, K.C.3
-
24
-
-
33846520600
-
Optomechanical entanglement between a movable mirror and a cavity field
-
Vitali D, Gigan S, Ferreira A, Böhm H R, Tombesi P, Guerreiro A, Vedral V, Zeilinger A and Aspelmeyer M 2007 Optomechanical entanglement between a movable mirror and a cavity field Phys. Rev. Lett. 98 030405
-
(2007)
Phys. Rev. Lett
, vol.98
, pp. 030405
-
-
Vitali, D.1
Gigan, S.2
Ferreira, A.3
Böhm, H.R.4
Tombesi, P.5
Guerreiro, A.6
Vedral, V.7
Zeilinger, A.8
Aspelmeyer, M.9
-
25
-
-
40749124007
-
Entanglement of macroscopic test masses and the standard quantum limit in laser interferometry
-
Müller-Ebhardt H, Rehbein H, Schnabel R, Danzmann K and Chen Y 2007 Entanglement of macroscopic test masses and the standard quantum limit in laser interferometry Phys. Rev. Lett. 100 013601
-
(2007)
Phys. Rev. Lett
, vol.100
, pp. 013601
-
-
Müller-Ebhardt, H.1
Rehbein, H.2
Schnabel, R.3
Danzmann, K.4
Chen, Y.5
-
26
-
-
54249116431
-
Route to observing ponderomotive entanglement with an optically trapped mirror
-
Wipf C, Corbitt T, Chen Y and Mavalvala N 2008 Route to observing ponderomotive entanglement with an optically trapped mirror New J. Phys. 10 095017
-
(2008)
New J. Phys
, vol.10
, pp. 095017
-
-
Wipf, C.1
Corbitt, T.2
Chen, Y.3
Mavalvala, N.4
-
27
-
-
50649100847
-
Cavity optomechanics: Back-action at the mesoscale
-
Kippenberg T J and Vahala K J 2008 Cavity optomechanics: back-action at the mesoscale Science 321 1172
-
(2008)
Science
, vol.321
, pp. 1172
-
-
Kippenberg, T.J.1
Vahala, K.J.2
-
28
-
-
0000664528
-
Thermal noise in mechanical experiments
-
Saulson P R 1990 Thermal noise in mechanical experiments Phys. Rev. D 42 2437
-
(1990)
Phys. Rev. D
, vol.42
, pp. 2437
-
-
Saulson, P.R.1
-
29
-
-
4243494840
-
Optomechanical cooling of a macroscopic oscillator by homodyne feedback
-
Mancini S, Vitali D and Tombesi P 1998 Optomechanical cooling of a macroscopic oscillator by homodyne feedback Phys. Rev. Lett. 80 688
-
(1998)
Phys. Rev. Lett
, vol.80
, pp. 688
-
-
Mancini, S.1
Vitali, D.2
Tombesi, P.3
-
31
-
-
0011490655
-
LIGO: The Laser Interferometer Gravitational-Wave Observatory
-
Abramovici A et al 1992 LIGO: The Laser Interferometer Gravitational-Wave Observatory Science 256 325
-
(1992)
Science
, vol.256
, pp. 325
-
-
Abramovici, A.1
-
32
-
-
67949088671
-
LIGO: The Laser Interferometer Gravitational-Wave Observatory
-
Abbott B et al 2009 LIGO: The Laser Interferometer Gravitational-Wave Observatory Rep. Prog. Phys. 72 076901
-
(2009)
Rep. Prog. Phys
, vol.72
, pp. 076901
-
-
Abbott, B.1
-
34
-
-
40849106445
-
Ground-state cooling of a micromechanical oscillator: Generalized framework for cold damping and cavity-assisted cooling schemes
-
Genes C, Vitali D, Tombesi P, Gigan S and Aspelmeyer M 2008 Ground-state cooling of a micromechanical oscillator: generalized framework for cold damping and cavity-assisted cooling schemes Phys. Rev. A 77 033804
-
(2008)
Phys. Rev. A
, vol.77
, pp. 033804
-
-
Genes, C.1
Vitali, D.2
Tombesi, P.3
Gigan, S.4
Aspelmeyer, M.5
-
36
-
-
67949099480
-
-
Danilishin S et al 2008 Creation of a quantum oscillator by classical control Phys. Rev. Lett. submitted (arXiv:0809.2024)
-
Danilishin S et al 2008 Creation of a quantum oscillator by classical control Phys. Rev. Lett. submitted (arXiv:0809.2024)
-
-
-
-
37
-
-
0037080790
-
Conversion of conventional gravitational-wave interferometers into quantum nondemolition interferometers by modifying their input and/or output optics
-
Kimble H J, Levin Y, Matsko A B, Thorne K S and Vyatchanin S P 2002 Conversion of conventional gravitational-wave interferometers into quantum nondemolition interferometers by modifying their input and/or output optics Phys. Rev. D 65 022002
-
(2002)
Phys. Rev. D
, vol.65
, pp. 022002
-
-
Kimble, H.J.1
Levin, Y.2
Matsko, A.B.3
Thorne, K.S.4
Vyatchanin, S.P.5
-
38
-
-
0035881983
-
Quantum noise in second generation, signal-recycled laser interferometric gravitational-wave detectors
-
Buonanno A and Chen Y 2001 Quantum noise in second generation, signal-recycled laser interferometric gravitational-wave detectors Phys. Rev. D 64 042006
-
(2001)
Phys. Rev. D
, vol.64
, pp. 042006
-
-
Buonanno, A.1
Chen, Y.2
|