Strong Infrared Laser Source From CivilLaser -- 1532nm 3W
1532nm 3W semiconductor laser with power supply CW modulation together
[Features]
Miniature size
Collimated straight beam
Easy use & maintenance free
Longlife operation
High efficiency
High reliability
Miniature size
Collimated straight beam
Easy use & maintenance free
Longlife operation
High efficiency
High reliability
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[Specifications]
Product Name: 1532nm IR Laser
Spatial Mode: Multimode
Lead Time: 1~3 weeks! Custom product available!
Output Wavelength: 1532±1nm
Output Power: 3000mW
Operation Mode: CW or Modulation
Polarization: 10:0.1
Pointing stability: <0.05 mrad
Beam Size: 6mm
Beam Height: 25mm
Power stability: <±3% per 2 hrs
Temperature Stabilizing: TEC
Beam quality(M2): <2
Warm Up Time: <5 minutes
MTTF(mean time to failure): 10,000 hrs
Optimum Operating Temperature: 20~30℃
Storage Temperature: 10~50℃
Modulation: 0~10khz
Power Supply: Standard type power supply / Lab Adjustable power supply (Choose)
Warranty: 1 Year
Note:
The picture is for reference only, different out power lasers, with different laser sizes.
If customer is concerned about the laser size, please contact us before purchasing.
Product Name: 1532nm IR Laser
Spatial Mode: Multimode
Lead Time: 1~3 weeks! Custom product available!
Output Wavelength: 1532±1nm
Output Power: 3000mW
Operation Mode: CW or Modulation
Polarization: 10:0.1
Pointing stability: <0.05 mrad
Beam Size: 6mm
Beam Height: 25mm
Power stability: <±3% per 2 hrs
Temperature Stabilizing: TEC
Beam quality(M2): <2
Warm Up Time: <5 minutes
MTTF(mean time to failure): 10,000 hrs
Optimum Operating Temperature: 20~30℃
Storage Temperature: 10~50℃
Modulation: 0~10khz
Power Supply: Standard type power supply / Lab Adjustable power supply (Choose)
Warranty: 1 Year
Note:
The picture is for reference only, different out power lasers, with different laser sizes.
If customer is concerned about the laser size, please contact us before purchasing.
.jpg)
3d bioprinting = Immortality = go to stars ((typewrite: interstellar travel constant acceleration))
ReplyDelete...interstellar travel not acceleration constant (laser)… L=2*3.14*r... that beam of a laser pointer that turn 180º, from horizon to horizon, in 1 second and 4 imaginary semicircular screens located, for example, to the distances from Earth… 1: 95493 kms… 2: Moon (384403 kms)… 3 Sun (150 Million kms, 1.5*10^8)… 4: Andromeda (2 million light years...19 Trillion kms, 1.9*10^19)… The mark of laser pointer to reach, would move alongside each screen to an angular speed of 180º/sec and a linear speed, based on the light, of…(3.14*r)/c... km 95493=1c... Moon=4c... Sun=1570c... Andromeda galaxy= 198 Billion*c, (1.98*10^14)*c.
ReplyDelete(2b)...interstellar travel not acceleration constant (laser)… But, if someday could make a laser-ray with its photons wave trains auto-correcting the divergence...how if they go away inside of a fiber-optic tube reflecting on the walls without can go out, although the ray would travel millions of light-years, to the end would arrive the beam cros-section with the same area that beam departed from the light source… Laser/Antilaser? Trajectories: photons divergent, perhaps antiphotons convergent?, then would go 2 concenter "tubes of light", normal photons interior-tube divergent/antiphotons exterior-tube convergent, perhaps repulsion photon/antiphoton...the exterior-antilaser prevents go out outside the interior-laser; and the interior-laser prevents go in inside the exterior-antilaser...maintaining always the same diameter… What would happen to arrive those intact laser marks to the distant semicircular screens?...hyperluminal-speed.
ReplyDelete