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A New Spectrometer For High Resolution Measurements of THz Transitions in Cold Carbon Clusters Martin Philipp, Michael Caris, Thomas Giesen, Stephan Schlemmer.

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Presentation on theme: "A New Spectrometer For High Resolution Measurements of THz Transitions in Cold Carbon Clusters Martin Philipp, Michael Caris, Thomas Giesen, Stephan Schlemmer."— Presentation transcript:

1 A New Spectrometer For High Resolution Measurements of THz Transitions in Cold Carbon Clusters Martin Philipp, Michael Caris, Thomas Giesen, Stephan Schlemmer I. Physikalisches Institut University of Cologne Germany

2 Why Carbon? Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07  fourth most abundant element in Interstellar Medium  75% of identified molecules contain carbon  tends to form large chains Carbon:  carbon chains are nonpolar Hale-Bopp IRC+10216 (Artist view)

3 Lowest Bending Modes of Linear Carbon Chains Measured: C 3 Schmuttenmaer et al. (1990) Gendrisch et al. (2003) Lab: Sgr B2: Giesen et al. (2001) Calc. band origins (Botschwina 2002) Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07 T=100 K Cernicharo et al. (2000)

4 GREAT Heterodyne Receiver Local Oscillator slots SI-Flange 1m LOs of GREAT are stand-alone THz sources! Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07 MPAe Berlin 4.7 THz MPIfR Bonn 2.4 – 2.7 THz KOSMA 1.4 THz KOSMA 1.6 – 1.9 THz Dual-channel, four-band: SOFIA

5 frequency range (sample): 540 - 680 GHz device bandwidth: 20% output power: 5 -15 mW minimum lifetime: > 500 h BWO sample (OB-80, ISTOK)multipliers for 1900 GHz ( RPG,JPL ) 1750 - 2000 GHz 0.05 - 1  W 4% / 10% 15cm 2cm Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07 1.9 THz LO: Principle of Operation

6 X 3 1.9THz 633GHz astigmatic PLL ( to receiver optics ) heat sink synthesizer water pump fan array LO-Box boundary BWO optics two-stage magnet Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07 frequency precision ~ 30 kHz power supply HV

7 1.9 THz Local Oscillator of GREAT 1 m optics BWO+ magnet cooling electronics Philipp et al. (2006) Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07

8 buffer gas Nd: Yag laser 1.9 THz LO pump Supersonic Jet Spectrometer for THz Applications lnSb Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07 pulse generator for valve

9 Laser Ablation of Graphite Rod  UV-Pulse (~10 8 Wcm -2 ) for ablation  ~10 15 ablated atoms / pulse  He-pulse (~10bar) for expansion  T ~ 20K Nd:YaG UV-pulse 266 nm vacuum Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07

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11 Beam Alignment: 10 passes through jet, vertical alignment of jet transits absorption path length ~10 cm 1 cm

12 First Measurements CO (16 15)  verify beam path  check timing  optimize readout used for: electronics CO measured in Jet @ T~20K Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07

13 Measured C 3 -Transition @ 1935.8 GHz C 3 Q(10) M.Caris. M.Philipp (2006) buffer gasHe backing pressure4 bar laser energy per pulse180-220 mJ number of points76 total scanning time17 min radiation power100 nW Conditions: Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07 Q (10) this work: Q (10) Gendrisch et al. 1935870.277(153) MHz 1935870.177(150) MHz

14 Predictions for C 7 C 3 Q-branch C 3 R-branch C7C7 IR: C 7 → estimated band origin 54 ± 11 cm -1 (1.6 ± 0.3 THz) Neubauer-Guenther et al. (in press, 2007) (from calculations) tuning range of radiation source 14001600 1800 200022002400 C 3 P-branch frequency [GHz] Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07 C7C7 (from experiment)

15 Conclusion + Outlook Conclusions:  1.9 THz LO of GREAT is a compact and easy-to-use source  Q(10) transition of C 3 was verified Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07 Outlook:  measuring of C 7 should be possible  13 C 3 maybe of THz radiation was a success!  Combination of the LO with the SuJeSTA spectrometer

16 Funding This work is supported by the Deutsche Forschungsgemeinschaft through Grant SFB 494 and by the state Nordrhein-Westfalen. Thanks to Dr. U. U. Graf Dr. F. Lewen Dr. A. Wagner-Gentner Prof. Dr. J. Stutzki D. Rabanus B. Schmidt Acknowledgments Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07

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18 GREAT Heterodyne Receiver SOFIA LO-slots Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07 MPAe Berlin 4.7 THz MPIfR Bonn 2.4 – 2.7 THz KOSMA 1.4 THz KOSMA 1.6 – 1.9 THz Dual-channel, four-band:

19 1.9 THz Local Oscillator of GREAT optics BWO+ magnet coolingelectronics Philipp et al. (2006) Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07 1 m radiation output

20 BWO 'OB-80' Power Output measured using Erickson PM1 Power Meter Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07

21 LO Power Output: Example! C3C3 C+C+ measured using Golay Cell Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07

22 Supersonic Jet Spectrometer for THz Applications BWO gas mixture pulse generator for valve lnSb 600 GHz BWO source "Herriott"- Cell Discharge Nozzle Adiabatic Expansion of jet nozzle Used for studying of: C 3 H, CO +, Si 2 C... "SuJeSTA" pump Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07

23 Cluster Size of Vaporized Graphite Rod Masse / C x10 Rohlfing, Cox, Kaldor (1984) Martin PhilippA New Spectrometer For Measurements of THz Transistions in Cold Carbon Clusters06/22/07

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