Institute of Applied Physics
of the Russian Academy of Sciences

 
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Current information on the further activities of the department is here
13.03.2017
Scientific equipment is set up the new laboratory (room №5675, IAP RAS) for performing the research work under the project «Diagnostics of novel optical materials for advanced lasers».

10.02.2017
The diploma for the III place in the nomination "The Best Invention of Year in the Nizhny Novgorod Region in the Sphere of Instrument-making and Electronics" for the patent No. 2558273 "Method for determining thermal conductivity of solids" which authors are members of laboratory Palashov O. V., Kuznetsov I. I., Mukhin I. B., Silin D. E. is gained.

14.10.2016
The laboratory room repair is completed  (room №5675, IAP RAS).

23.09.2016
A new upgraded laser head with a thin taped rod active element and water cooling is developed.

12.07.2016
A thin rod laser amplifier with high (15 times) single pass small-signal gain is developed.

13.04.2016
Unique taped rod laser active elements are created.

20.01.2016
A new laser head with a thin rod active element with water cooling is developed.

15.09.2015
A new laser head with water cooling for high power disk lasers is developed.

20.05.2015
440W CW disk laser with water cooling is created.

06.04.2015
Faraday rotator with a record 40mm TGG crystal aperture is created.

26.02.2015

Unique High aperture magnetooptical TGG elements are made


28.11.2014
The beginning of the commissioning process for developed measuring facilities. Measurement of laser hazards by Rospotrebnadzor specialist.

20.10.2014
The cryogenic laser quantron with active cooling of the active element by the flow of liquid nitrogen is developed.

09.09.2014
The thermal dependences of thermooptical constants measuring facilities is assembled and tested.

18.08.2014
The photooelastic constants measuring facility is assembled and tested.

20.05.2014
Magnetic system for cryogenic Faraday isolator, for compensation of thermally induced radiation distortions with a predetermined magnetic field inhomogeneity is developed.

15.04.2014
The thermal resistance of solid-state contacts measuring facility is assembled and tested.

28.03.2014.
The optical scheme for solid state thermal conductivity measurement facility is assembled.

03.03.2014.
The facility for measuring the magnetic systems field is assembled.

15.01.2014.
The first optical scheme (Nd: YLF-laser) is assembled in the new room.

27.12.2013.
The installation of air conditioning and temperature stabilization systems
is completed (room# 4503, IAP RAS).


15.12.2013.
The laboratory room repair is completed (room #4503, IAP RAS).

20.11.2013.
For performing the research work «Diagnostics of novel optical materials for advanced lasers» equipment has been purchased and repairing of the laboratory room is started (room #4503, IAP RAS).

05.07.2013.
The order to allocate the room (room #4503, IAP RAS) for performing the research work «Diagnostics of novel optical materials for advanced lasers».

05.07.2013.
The order to establish the research team for performing the research work «Diagnostics of novel optical materials for advanced lasers» according to the Contract of June 28, 2013 № 14.B25.31.0024.