Presentation is loading. Please wait.

Presentation is loading. Please wait.

LOCS – LAMOST Open Cluster Survey. Why Open Clusters ? -- test-bed stellar evolution theory Galactic disc structure & evolution -- a lot more reasons.

Published byCedric Burks Modified over 10 years ago

Similar presentations

Presentation on theme: "LOCS – LAMOST Open Cluster Survey. Why Open Clusters ? -- test-bed stellar evolution theory Galactic disc structure & evolution -- a lot more reasons."— Presentation transcript:

1 LOCS – LAMOST Open Cluster Survey

2 Why Open Clusters ? -- test-bed stellar evolution theory Galactic disc structure & evolution -- a lot more reasons …… (motivations)

3 Why LAMOST ? most efficiently: > 1 OCs/per night deep enough: V~15-16 to includ most of old OCs within d~10kpc Parameters R~10000 R V 1 km/s [Fe/H] 0.1dex For R~10000 , V lim ~15; 30-40min. obs.  S/N~30 LAMOST’s ability Fibre n: ~ 4000 FOV: ~ 5 degree D= 4m Typical obs. area for an OC: 1d×1d with number of stars ~1000 (V~15)

4  Critical constraints for Galactic structure & evolution scenarios What will be the output of LOCS ?  much reliable (kinematic) membership for cluster fields  more old and distant OCs with reliable kinematics & metallicity 6×10 2 OCs, each FOV ~ 1d×1d R V & [Fe/H] surveyed V ~15 -16 complete

5 >600 OCs selected(zenith< 60d ) for LOCS FOV of LAMOST

6 Sample OC distribution near the disc

7 ~ From total of ~600 OCs N~350N~300N~70 Observed Rgc,age,[Fe/H] for the selected sample

8 Summary Rv & metallicity of GOCS are very important. Of course. LAMOST could be very efficient in spectroscopic OC survey LOCS aims to produce a homogeneous Rv & metallicity dataset for about 600 OCs, with limiting magnitude to 15 or 16, with, say, 2 years observation run This dataset would be of great importance for researches on Galactic structure & evolution

Download ppt "LOCS – LAMOST Open Cluster Survey. Why Open Clusters ? -- test-bed stellar evolution theory Galactic disc structure & evolution -- a lot more reasons."

Similar presentations

Comparing RAVE with theoretical models of the Milky Way Sanjib Sharma Joss Bland Hawthorn University of Sydney.

Comparing RAVE with theoretical models of the Milky Way Sanjib Sharma Joss Bland Hawthorn University of Sydney.
Name: Date: Read temperatures on a thermometer 50 75 100 125 0 25 Independent / Some adult support / A lot of adult support 20 30 40 50 0 10 100 150 200.

Name: Date: Read temperatures on a thermometer Independent / Some adult support / A lot of adult support
Lapse Rate is the temperature drop per kilometer height increase Typically about 6 °C/km = 6 °C/1000m Or About 3 °F/1000 ft.

Lapse Rate is the temperature drop per kilometer height increase Typically about 6 °C/km = 6 °C/1000m Or About 3 °F/1000 ft.
The rate at which work is done.

The rate at which work is done.
1 1  1 =.

1 1  1 =.
1  1 =.

1  1 =.
Year 6 mental test 15 second questions Numbers and number system Numbers and the number system, Measures and Shape.

Year 6 mental test 15 second questions Numbers and number system Numbers and the number system, Measures and Shape.
Who Wants To Be A Millionaire? Mrs Mances Edition.

Who Wants To Be A Millionaire? Mrs Mances Edition.
Can you explain the ideas

Can you explain the ideas
Fractions mean division. 1 4 of 28 =28 ÷ 4=7 How would you find out what of 28 is? 3 4.

Fractions mean division. 1 4 of 28 =28 ÷ 4=7 How would you find out what of 28 is? 3 4.
(Very) Preliminary Quality Assessment of Stratospheric AMSU Channels (Channels 9 – 14) Carl Mears Remote Sensing Systems.

(Very) Preliminary Quality Assessment of Stratospheric AMSU Channels (Channels 9 – 14) Carl Mears Remote Sensing Systems.
On Sequential Experimental Design for Empirical Model-Building under Interval Error Sergei Zhilin, Altai State University, Barnaul, Russia.

On Sequential Experimental Design for Empirical Model-Building under Interval Error Sergei Zhilin, Altai State University, Barnaul, Russia.
+ 7.3B The Central Limit Theorem 1/16/2014. + Section 7.3 Sampling Distributions & The CLT After this section, you should be able to… APPLY the central.

+ 7.3B The Central Limit Theorem 1/16/ Section 7.3 Sampling Distributions & The CLT After this section, you should be able to… APPLY the central.
Year 6/7 mental test 5 second questions

Year 6/7 mental test 5 second questions
PI: Michele Cirasuolo Royal Observatory Edinburgh Collaborators: J. Dunlop, R. McLure, F. Cullen, R. Maiolino, R. Ivison, G. Wright, M. Swinbank, R. Sharples,

PI: Michele Cirasuolo Royal Observatory Edinburgh Collaborators: J. Dunlop, R. McLure, F. Cullen, R. Maiolino, R. Ivison, G. Wright, M. Swinbank, R. Sharples,
Subaru Adaptive Optics (AO) Rest-frame V-band Imaging of Galaxies at z~3 : High Surface Density Disk-like Galaxies ? Subaru Users Meeting 20080130 Masayuki.

Subaru Adaptive Optics (AO) Rest-frame V-band Imaging of Galaxies at z~3 : High Surface Density Disk-like Galaxies ? Subaru Users Meeting Masayuki.
Costs Per Survey Response

Costs Per Survey Response
Spitzer IRS Spectroscopy of IRAS-Discovered Debris Disks Christine H. Chen (NOAO) IRS Disks Team astro-ph/0605277.

Spitzer IRS Spectroscopy of IRAS-Discovered Debris Disks Christine H. Chen (NOAO) IRS Disks Team astro-ph/
The Outermost Regions of Galactic Disks Ken Freeman RSAA, ANU MNRF Symposium 7.6.05 NGC 6946: WSRT, Tom Oosterloo.

The Outermost Regions of Galactic Disks Ken Freeman RSAA, ANU MNRF Symposium NGC 6946: WSRT, Tom Oosterloo.
Circumstellar disks: what can we learn from ALMA? March 2011 - ARC meeting, CSL.

Circumstellar disks: what can we learn from ALMA? March ARC meeting, CSL.

Similar presentations

Ads by Google