聲光偏轉器可以用來掃描激光束。這是通過改變射頻驅動頻率實現的。隨機位置、連續線掃描和順序點偏移都是可能的。根據晶體、波長和光束大小,可以獲得超過250KHz的掃描速率。
最佳效率要求輸入激光束設置在布拉格角,這是驅動頻率的函數。當掃掠掃描激光束時,由于AOD只能在一個驅動頻率下進行光學對準,因此會產生布拉格角失配。一般來說,這將根據掃描范圍降低效率。可以使用以下幾種技術來盡量減少這種影響:
離軸聲光偏轉器(OAD)利用雙折射晶體的非線性特性,將布拉格角頻率靈敏度降到很低。
電子束引導聲光偏轉器(“-BS")根據射頻驅動頻率對晶體內的聲柱進行電子引導。這就要求換能器上的相控陣電極是具有2或4個射頻輸入。
Model | A/R Coating | Material | Rayleigh Res'n 1 2 | Aperture (mm) | Sweep BW (MHz) | Center Freq. (MHz) | Suggested Driver | Feature |
D1155-T75S | 405nm | TeO2 (S) | 140 | 9 | 10 | 75 | Here | |
1206C-2-1002 | NUV, VIS | TeO2 | 100 | 2 x 9 | 50 | 110 | Here | |
D1340-aQ120-5 | UV | Quartz | 25 | 5 | 30 | 120 | iMS4 RFA0120-2-15 | |
D1384-aQ120-9 | UV | Quartz | 60 | 9 | 40 | 120 | iMS4 RFA0120-2-15 | |
D1340-XY-aQ120-5 | UV | Quartz | 25 x 25 | 5 x 5 | 30 | 120 | iMS4 RFA0120-4-15 | |
D1384-XY-aQ120-9 | UV | Quartz | 60 x 60 | 9 x 9 | 40 | 120 | iMS4 RFA0120-4-15 |
Model | A/R Coating | Material | Rayleigh Res'n 1 2 | Aperture (mm) | Sweep BW (MHz) | Center Freq. (MHz) | Suggested Driver | Feature |
1205C-2-804B | VIS | PbMoO4 | 66 | 2 x 6 | 30 | 80 | Here | |
LS55-V | VIS | TeO2 (S) | 450 | 2 x 7 | 40 | 80 | Here | |
LS110A-VIS | VIS | TeO2 (S) | 1100 | 4 x 14 | 50 | 100 | Here | |
LS110A-VIS-XY | VIS | TeO2 (S) | 750x750 | 9 x 9 | 50 | 100 | Here | Dual Axis |
OAD948 | 488nm | TeO2 (S) | 600 | 3 x 8 | 50 | 100 | Here | |
OAD1020 | 532nm | TeO2 (S) | 600 | 2 x 8 | 50 | 100 | Here | |
1206C-2-1002 | NUV, VIS | TeO2 | 77 | 2 x 8 | 50 | 110 | Here | |
OPP834 | VIS | PbMoO4 | 520 | 0.7 x 19 | 100 | 200 | Here | |
1250C-BS-960A | VIS | PbMoO4 | 160 | 1.5 x 6 | 120 | 190 | Here | |
D1365-aQ180 | 532nm | Quartz | 60 | 3 x 6 | 60 | 180 | RFA5180-4 | |
D1384-aQ110-7 | 515nm | Quartz | 25 | 7 | 30 | 110 | iMS4 RFA0110-2-20 | |
D1384-XY-aQ110-7 | 515nm | Quartz | 25 x 25 | 7 x 7 | 30 | 110 | RFA333-2 RFA0110-4-20 |
Model | A/R Coating | Material | Rayleigh Res'n 1 2 | Aperture (mm) | Sweep BW (MHz) | Center Freq. (MHz) | Driver | Feature |
OAD1550-XY | 1550nm | TeO2 (S) | 200 x 200 | 7 x 7 | 20 | 40 | Here | |
LS110A-NIR | NIR | TeO2 (S) | 550 | 4 x 14 | 25 | 50 | Here | |
LS110A-NIR-XY | NIR | TeO2 (S) | 240 x 240 | 6 x 6 | 25 | 50 | Here | |
1205C-x-804B | NIR | PbMoO4 | 66 | 2 x 6 | 40 | 80 | Here | |
OAD1343-XY | <820 | TeO2 (S) | 400 X 400 | 9 X 9 | 30 | 70 | Here | |
OAD1344-XY | >830 | TeO2 (S) | 400 X 400 | 9 X 9 | 30 | 70 | Here | |
LS55-NIR | NIR | TeO2 (S) | 450 | 2 x 7 | 40 | 80 | Here | |
D1312-T80L | NIR | TeO2 | 40 | 6 | 30 | 80 | Here | |
D1086-T110L | NIR | TeO2 | 95 | 3 x 8 | 50 | 110 | Here | Conduction cooled |
D1135-T110L | NIR | TeO2 | 95 | 3 x 8 | 50 | 110 | Here | |
1250-BS-926 | NIR | PbMoO4 | 60 | 0.5 x 3 | 70 | 145 | Here | |
1250C-2BS-943A | NIR | PbMoO4 | 190 | 2 x 6 | 120 | 185 | Here |
Model | A/R Coating | Material | Rayleigh Res'n 1 2 | Aperture (mm) | Sweep Bandwidth (MHz) | Center Freq. (MHz) | Suggested Driver |
1209-7BS-986 | IR | Ge | 50 | 7 x 14 | 20 | 40 | Here |
D1315-G50-H | IR | Ge | 70 | 7 x 20 | 20 | 50 | Here |
AOD650-H | IR | Ge | 100 | 7 x 30 | 20 | 50 | Here |
D1199-G50 | IR | Ge | 100 | 7 x 20 | 20 | 50 | Here |
D1208-XY-50-3 | IR | Ge | 10 x 10 | 3 x 3 | 40 | 70 | Here |
LS700-1011 | IR | Ge | 436 | 10 x 60 | 40 | 70 | Here |