MicOS Microscope Optical Spectrometer0 pages
ELEMENTAL ANALYSIS
FLUORESCENCE
GRATINGS &
OEM SPECTROMETERS
OPTICAL COMPONENTS
OPTICAL COMPONENTS
Brings microscope
functionality to
your spectrometer
PARTICLE CHARACTERIZATION
MicOS
Microscope
Optical
Spectrometer
RAMAN
SPECTROSCOPIC ELLIPSOMETRY
SPR IMAGING
Using a standard microscope for luminescence characterization
often means inefficient fiber-optic coupling to the spectrometer,
and difficult access for many sample configurations, such as
side-emitting devices, or upright cryostats. Nor do standard
microscopes offer flexibility for coupling multiple lasers for
photoluminescence excitation.
HORIBA Scientific’s MicOS merges microscopy and
spectroscopy, to provide optimal coupling from sample
all the way to the detector. Down-looking or side-looking
configurations for side-emitting devices or upright cryostats
give you flexible sample access. An optional, fully automated stage for mapping and sample-positioning is
available. The MicOS offers a flexible platform for the use of multiple lasers for sample excitation. The system
includes a vision camera so you always see what you are measuring.
Photoluminescence
The MicOS is the most
microspectrometer solution!
cost-effective
and
flexible
500
500
400
400
300
300
200
200
100
100
0
Y (µm)
Y (µm)
0
-100
-200
Spectrometers
Spectral range
iHR550
200 nm to 1600 nm
1
Spectral resolution2
-200
-300
-300
-400
iHR320
-100
-400
-500
0.18 nm
0.1 nm
CCD 1024 ×
256 OE3
IGA 512 × 25
Single-channel
Range
200–1050 nm
800–1600 nm
190–1600 nm4
Microscope Magnification
Objective Spot size
Sample stage
532 nm
633 nm
50×
100×
100 µm
<20 µm
*Specifications are subject to change without notice.
400
600
-600
50 µm
-200
-400
0
X (µm)
200
400
600
500
55 000
400
50 000
<10 µm
Depends on choice of objective, filters, and detectors.
2
For 1200 gr/mm grating and open-electrode CCD
3
BIUV, BIVS, and BIDD formats available for specific quantum-efficiency requirements.
4
Needs two detectors to cover entire range.
5
Other options are available upon request.
200
Electroluminescence
60 000
45 000
300
40 000
200
35 000
xyz (manual or motorized)
1
0
X (µm)
Aggregate of fluorescent Fluorescence map overlay
beads
at 700 nm, following
excitation at 633 nm
785 nm
10×
-200
100
30 000
Y (µm)
Excitation laser5
-400
Intensity (cnt)
Detector
Type
50 µm
-500
-600
25 000
0
-100
20 000
-200
15 000
-300
10 000
-400
5 000
-500
550
600
Wavelength (nm)
50 µm
650
Emission of red LED
700
-600
-400
-200
Red LED
0
X (µm)
200
400
600
800
"